D. คุณสมบัติ ที่มา ความหมายของ ไฟเบอร์กล๊าส เสริมแรง FiberGlass Vinyl Resin Food Grade FRP

คุณสมบัติ ที่มา ความหมายของ ไฟเบอร์กล๊าส เสริมแรง The properties of the fiber glass reinforced GFRP FiberGlass Vinyl Resin Food Grade.

What is Fiber Glass | FibreGlass Definition

ผลิตภัณฑ์ไฟเบอร์กลาส เป็นคำแปลมาจากคำว่า Fiberglass Reinforced Plastic หรือ Glass Reinforced Composite หรือผลิตภัณฑ์พลาสติกที่ใส่วัสดุอื่นเพื่อเสริมความแข็งแรง (มีวัสดุมากกว่า 2 ชนิดมาประสานกัน) วัสดุที่นำมาเสริมแรงให้พลาสติกคือ “ใยแก้ว” ซึ่งมีลักษณะอ่อนนุ่มแต่เหนียว ทนความร้อนได้สูง ส่วนพลาสติกที่นำมาใช้เป็นเนื้อ ต้องเป็นชนิดที่มีความแข็งมาก ซึ่งถ้าไม่มีการเสริมแรงแล้วจะเปราะ ดังนั้นเราจึงเลือกเอาพลาสติกประเภท โพลิเอสเทอร์เรซิ่น ไวนิลเอสเทอร์เรซิ่น และอีพอกซี่เรซิ่น พลาสติกจำพวกนี้เป็นพลาสติกเหลวซึ่งภายหลังจากการผสมกับ ตัวช่วยเร่งปฏิกิริยา หรือ ตัวทำให้แข็ง แล้วจะเกิดปฏิกิริยาทางเคมี มีความร้อนเกิดขึ้นสูงกว่า100?C. แล้วจะเปลี่ยนเป็นพลาสติกแข็งและจะไม่คืนรูปอีกซึ่งเรียกว่ากระบวนการ เทอร์โมเซ็ตติ้ง(Thermoseting)
ดังนั้นการสร้างผลิตภัณฑ์ขึ้นมาโดยวิธีการดังกล่าวแล้ว จึงเรียกได้ว่าเป็น ผลิตภัณฑ์พลาสติกเสริมแรง ด้วยใยแก้ว หรือ FRP ซึ่งเราเรียกง่ายๆ ว่า ผลิตภัณฑ์ไฟเบอร์กลาส หรือ ผลิตภัณฑ์เอฟอาร์พี
ไฟเบอร์กลาสหรือเส้นใยแก้วแบ่งได้เป็นสองประเภทตามลักษณะของเส้นใย คือเส้นใยต่อเนื่องคล้ายกับเส้นด้าย (ดังรูป 1) ที่สามารถนำมาถักทอให้เป็นผืนผ้า (fiberglass fabric) (ดังรูป 2) ผ้าที่ได้จะไม่ดูดซึมน้ำ ไม่หดตัว ป้องกันความร้อนได้ดี ส่วนมากจะนำไปใช้ในด้านอุตสาหกรรม เช่น ทำเป็นผ้าม่านกันสะเก็ดไฟ ส่วนเส้นใยแก้วอีกประเภทหนึ่งจะเป็นเส้นใยที่สั้นไม่ต่อเนื่อง มักนำมาใช้ทำเป็นฉนวนกันความร้อน และ ฉนวนกันเสียง ซึ่งมีลักษณะเป็นแผ่นหนานุ่ม (ดังรูป 3) Fiberglass Products Is the translation of the word Fiberglass Reinforced Plastic or Glass Reinforced Composite or plastic materials input for added strength. (There are more than two kinds of materials coming together) materials used to make reinforced plastic is the “fiber”, which looks soft but sticky. High heat resistance The plastic used is beef. A species that is very much appreciated. Without reinforcement is fragile. So we choose the type of plastic. Polyester resin esters. Vinyl ester resins York. And epoxy resins Plastics such as liquid plastic, which after merging with. Help catalyst or hardener are chemical reactions. Heat occurs above 100? C. It is hard plastic and will never return again, which is called a process.
Thermostat Settings (Thermoseting) , thus creating a product by means of the above. It is known as the Plastic reinforced with fiberglass or FRP, known simply as fiberglass products or product F. RP.
Fiberglass or glass fibers can be divided into two categories according to the type of fiber. Most are deployed in industries such as curtains Fire. The fiber is a type of short fibers that are not continuous. Often used as insulation and sound insulation, which is a thick sheet (see Figure 3),
the main ingredient for the production of optical fibers is Sai (silica sand) used as building material, glass, soda ash (soda.ash) and lime (limestone) of the latter two will reduce the melting point.
ส่วนผสมหลักที่ใช้ผลิตเส้นใยแก้วคือ ทรายแก้ว (silica sand) ใช้เป็นสารสร้างแก้ว โซดาแอช (soda ash)และ หินปูน (limestone) สารสองอย่างหลังจะช่วยลดจุดหลอมเหลว นอกจากส่วนผสมหลักทั้งสามแล้วอาจมีส่วนผสมอื่นๆที่ใช้เพื่อปรับปรุงสมบัติต่างๆของเส้นใยแก้วเช่น บอแรกซ์ (borax) ฟันหินม้า (feldspar) แคลไซน์อะลูมินา (calcined alumina) แมกนีไซต์ (magnesite) เนฟฟีลีนไซยาไนต์ (nepheline syenite) และ ดินขาวเคโอลิน (kaolin clay)

Definition of polyester resin 
any of various synthetic resins or plastics consisting of or made from polyesters: such as a resin that has the same chemical composition as the common polyester fiber but that is extruded as a film (as for use in packaging, as electrical insulation, or as a base for magnetic recording tapes) c : a thermosetting resin that is made from an unsaturated polyester (as one formed from a glycol and maleic acid or fumaric acid), cured by copolymerization (as with styrene), and often reinforced with fillers (as glass fibers) and that is used chiefly in impregnating and laminating and in making cast and molded products

For the thermal insulation material sometimes called fiberglass, see glass wool. For the glass fiber itself, also sometimes called fiberglass, see glass fiber. For similar composite materials in which the reinforcement fiber is carbon fibers, see carbon-fiber-reinforced polymer. Fiberglass (or fibreglass) is a type of fiber-reinforced plastic where the reinforcement fiber is specifically glass fiber. The glass fiber may be randomly arranged, flattened into a sheet (called a chopped strand mat), or woven into a fabric. The plastic matrix may be a thermosetting plastic – most often epoxy, polyester resin – or vinylester, or a thermoplastic.
The glass fibers are made of various types of glass depending upon the fiberglass use. These glasses all contain silica or silicate, with varying amounts of oxides of calcium, magnesium, and sometimes boron. To be used in fiberglass, glass fibers have to be made with very low levels of defects.
Fiberglass is a strong lightweight material and is used for many products. Although it is not as strong and stiff as composites based on carbon fiber, it is less brittle, and its raw materials are much cheaper. Its bulk strength and weight are also better than many metals, and it can be more readily molded into complex shapes. Applications of fiberglass include aircraft, boats, automobiles, bath tubs and enclosures, swimming pools, hot tubs, septic tanks, water tanks, roofing, pipes, cladding, casts, surfboards, and external door skins.
Other common names for fiberglass are glass-reinforced plastic (GRP),[1] glass-fiber reinforced plastic (GFRP)[2] or GFK (from German: Glasfaserverst?rkter Kunststoff). Because glass fiber itself is sometimes referred to as “fiberglass”, the composite is also called “fiberglass reinforced plastic.” This article will adopt the convention that “fiberglass” refers to the complete glass fiber reinforced composite material, rather than only to the glass fiber within it.
เกรตติ้งตะแกรงไฟเบอร์กล๊าส frp grating

 

ที่มาเกี่ยวกับไฟเบอร์กลาส At about fiberglass | History of FRP FibreGlass

บางคนรู้จัก”ไฟเบอร์กลาส”ว่าเป็นวัสดุผสม หรือพลาสติกเสริมแรง ใช้ผลิตเป็นหลังคา รถกระบะ หรืออ่างอาบน้ำ แต่แท้จริงแล้ว “ไฟเบอร์กลาส” ก็คือ “เส้นใยแก้ว” มีความหมาย ที่แปลตรงตัว เส้นใยแก้วถูกนำไปใช้เป็นวัสดุช่วยเสริมแรงให้กับพลาสติกเรซิน และขึ้นรูป เป็นผลิตภัณฑ์ต่างๆ เช่น หลังคารถกระบะ อ่างอาบน้ำ เรือ ชิ้นส่วนเครื่องบินเล็ก ถังน้ำขนาด ใหญ่ ชิ้นส่วนรถแข่ง ผลิตภัณฑ์คอนกรีตเสริมใยแก้ว(Glass Reinforced Concrete, GRC) เป็นต้น นอกจากสมบัติความแข็งแรง ทนแรงดึงได้สูงมากแล้ว เส้นใยแก้วยังมีสมบัติด้าน การเป็นฉนวนความร้อน ถูกใช้เป็นฉนวนในเตา ตู้เย็น หรือวัสดุก่อสร้าง นอกจากนั้น เส้นใยแก้วสามารถทอเป็นผืนผ้า เย็บเป็นชิ้น และด้วยโครงสร้างที่ทำให้ ผลิตภัณฑ์ทำจาก เส้นใยแก้วมีช่องว่างภายใน ที่ถูกดักเก็บไว้ทำให้มีความสามารถในการป้องกันความร้อนได้ดี เหมาะที่จะทำผ้าหนุนด้านใน เพื่อเป็นฉนวนที่ดีเช่นเดียวกับที่ใช้กับตู้เย็นหรือเสื้อหนาว ผ้าจากเส้นใยแก้วไม่มีการดูดซึมน้ำ ใช้เป็นผ้ากันน้ำ ไม่เกิดการหดตัวและไม่เกิดผลเสีย จากน้ำ
เส้นใยแก้วมีขนาดและความยาวหลากหลายขนาด เส้นใยอาจยาวเหมือนเส้นด้าย ยาวมากไปจนถึงเส้นใยที่สั้นมากจนมองด้วยตาเปล่าไม่เห็น เส้นใยแก้วผลิตจากส่วนประกอบ ของทรายแก้ว หินปูน หินฟันม้า เติมกรดบอริกและสารเติมแต่งอื่นๆ ถูกหลอมเหลวภายใน เตาไฟฟ้าที่อุณหภูมิสูงมากถึง 1370 องศาเซลเซียส ซึ่งหากมีการควบคุมคุณภาพส่วนผสม เป็นอย่างดี ให้มีความบริสุทธิ์ ก็ไม่จำเป็นต้องทำให้เป็นลูกแก้วเพื่อคัดเลือกลูกแก้วที่ดี มาหลอมเป็นน้ำแก้วใหม่อีกครั้ง หลังจากนั้น จะเข้าสู่กระบวนการรีดเป็นเส้นใยยาว โดยเส้นใยถูกดึงออกจากหัวรีด และถูกม้วนเก็บด้วยความเร็วที่สูงกว่าความเร็วของใยแก้ว ที่ถูกอัดออกจากหัวรีด ซึ่งเท่ากับเป็นการยืดดึงในขณะที่เส้นใยยังอ่อนตัว ได้เส้นใยขนาด เล็กลงก่อนการแข็งตัว เส้นใยยาวนี้มักนิยมใช้ทำผ้าม่าน หากต้องการทำเป็นเส้นใยสั้น ก็จะถูกตัดด้วยแรงลมให้มีความยาวแตกต่างกันออกไป ซึ่งนิยมนำไปทำผลิตภัณฑ์เทปหรือผ้า ในงานอุตสาหกรรม เพื่อป้องกันเสียง อุณหภูมิและไฟ
“ไฟเบอร์กลาส” ในภาษาของวัสดุเสริมแรงที่รู้จักทั่วไป ในการทำหลังคารถกระบะ หรือชิ้นส่วนที่ต้องการความแข็งแรงนั้น ผลิตจากการนำชิ้นส่วนต้นแบบมาขัดผิวด้านนอกด้วย ขี้ผึ้งถอดแบบ วางผ้าใยแก้วบนชิ้นส่วนต้นแบบ ทาด้วยเรซินที่ผสมตัวทำให้แข็งให้มีความหนา ตามต้องการ เมื่อเรซินแข็งตัวแล้วดึงชิ้นส่วนไฟเบอร์กลาสออกจากชิ้นส่วนต้นแบบ นำมาขัด แต่งผิวด้านนอกให้เรียบร้อย การสร้างชิ้นส่วนไฟเบอร์กลาสจากวิธีนี้จะขาดรายละเอียดและ ความสวยงาม แตกต่างจากวิธีที่ใช้แม่พิมพ์ ซึ่งเหมาะสำหรับชิ้นส่วนจำนวนมาก แต่มีขั้นตอน ยุ่งยากกว่าวิธีแรก โดยเราต้องสร้างแม่พิมพ์ขึ้นมาจากชิ้นส่วนต้นแบบเสียก่อน เมื่อได้แม่พิมพ์ แล้วจึงนำมาสร้างชิ้นส่วนไฟเบอร์กลาสที่ต้องการ ชิ้นส่วนที่สร้างขึ้นมามีความสวยงามเหมือนกับ ต้นแบบทุกประการ และสามารถเสริมความแข็งแรงในบริเวณที่ต้องการโดยเพิ่มความหนา ของใยแก้วหลายๆ ชั้น
ไฟเบอร์กลาสผลิตขึ้นจากสารเคมีและวัสดุหลายชนิด ซึ่งเป็นอันตรายต่อสุขภาพ เช่น ดวงตา ผิวหนัง ระบบทางเดินหายใจ ดังนั้น จึงควรระมัดระวังและใส่อุปกรณ์ป้องกัน ในขณะที่ทำ ชิ้นส่วนจากไฟเบอร์กลาส Some people know “fiberglass” as a composite material. Or plastic reinforcement Used as a canopy roof or bathtub. But really “Fiberglass” is a “fiberglass” means a direct translation of the fiber is used as a reinforcement material for resin plastics and molded products such as roof, pickup truck tub, small aircraft parts, Big race car parts Glass Reinforced Concrete (GRC), etc., in addition to strength. High tensile strength already. Fiber also has properties. Heat insulation It is used as an insulator in a furnace, refrigerator or building material. In addition, the fiber can be woven into a piece of cloth. Products made from Fiber has space Trapped, it has the ability to protect the heat well. Suitable for underlay fabric. To be as good as the insulation used on a refrigerator or a cold sweater. Fabric from fiberglass does not absorb water. Used as a waterproof fabric. No shrinkage and no effect from water.
Fiber of various size and length. The fibers may be long like yarns. Very long to very short fiber to the naked eye. Fiberglass is made up of components of fine sand, limestone, rock, tooth, boric acid, and other additives. Melted inside Electric furnace at high temperature up to 1370 degrees Celsius, if the quality control of the ingredients well, the purity. It is not necessary to make a crystal ball to select a good glass. Then re-melted into glass water again after which it goes into the process of rolling into long fibers. The fiber is pulled out of the rolling head. And was rolled up at a speed higher than the speed of fiberglass. Squeezed out This is equivalent to stretching while fiber is weak. Fiber size Smaller before hardening This long fiber is often used to make curtains. To make a short fiber. It will be cut by wind to a different length. Which is commonly used to make tape or cloth products. In industry To prevent noise Temperature and light
“Fiberglass” in the language of reinforcing materials commonly known. To make a pickup truck roof. Or parts that need strength. Made from the prototype to scrub the surface outside. Wax replica Put fiberglass on the prototype. Apply a hardened resin to the desired thickness when the resin solidifies and then remove the fiberglass pieces from the prototype to polish the outer surface. Fiberglass fabrication from this method is lacking in detail and beauty is different from the way the mold is used. This is great for many components, but it’s a bit tougher than the first. We need to create a mold from the prototype. When the mold. Then we create the fiberglass components that we want. The pieces are beautiful. Master in all respects It can be strengthened in the desired area by adding thickness. Of multi-layer fiberglass
Fiberglass is made up of various chemicals and materials. This is harmful to health, such as the eyes, skin, respiratory tract, so be careful and wear protective gear while making fiberglass pieces.
Glass fibers have been produced for centuries, but mass production of glass strands was accidentally discovered in 1932 when Games Slayter, a researcher at Owens-Illinois, directed a jet of compressed air at a stream of molten glass and produced fibers. A patent for this method of producing glass wool was first applied for in 1933.Owens joined with the Corning company in 1935 and the method was adapted by Owens Corning to produce its patented “fibreglas” (one “s”) in 1936. Originally, fibreglas was a glass wool with fibers entrapping a great deal of gas, making it useful as an insulator, especially at high temperatures.
A suitable resin for combining the “fibreglass” with a plastic to produce a composite material was developed in 1936 by du Pont. The first ancestor of modern polyester resins is Cyanamid’s resin of 1942. Peroxide curing systems were used by then. With the combination of fiberglass and resin the gas content of the material was replaced by plastic. This reduced the insulation properties to values typical of the plastic, but now for the first time the composite showed great strength and promise as a structural and building material. Confusingly, many glass fiber composites continued to be called “fiberglass” (as a generic name) and the name was also used for the low-density glass wool product containing gas instead of plastic.
Ray Greene of Owens Corning is credited with producing the first composite boat in 1937, but did not proceed further at the time due to the brittle nature of the plastic used. In 1939 Russia was reported to have constructed a passenger boat of plastic materials, and the United States a fuselage and wings of an aircraft. The first car to have a fiber-glass body was a 1946 prototype of the Stout Scarab, but the model did not enter production.

 

ขั้นตอนการผลิตไฟเบอร์กล๊าสเสริมแรงThe process of manufacturing fiber glass reinforced Fiber Glass

นำส่วนผสมทั้งหมดหลอมในเตาไฟฟ้าที่อุณหภูมิสูงมากถึง 1370 องศาเซลเซียสเพื่อให้ได้น้ำแก้ว จากนั้นจะเข้าสู่กระบวนการรีดเป็นเส้นใยยาวโดยเส้นใยจะถูกดึงออกจากหัวรีดและถูกม้วนเก็บด้วยความเร็วที่สูงกว่าความเร็วของใยแก้วที่ถูกอัดออกจากหัวรีด ซึ่งเท่ากับเป็นการยืดดึงในขณะที่เส้นใยยังอ่อนตัวทำให้ได้เส้นใยขนาดเล็กลงก่อนการแข็งตัว หากต้องการทำเป็นเส้นใยสั้นก็ทำได้โดยการตัดด้วยแรงลม สามารถทำให้เส้นใยมีความยาวแตกต่างกันออกไป
อย่างไรก็ตาม ในขั้นตอนการหลอม ถ้าหากไม่มีการควบคุมคุณภาพของส่วนผสมให้บริสุทธิ์แล้วก็จำเป็นต้องหลอมและทำน้ำแก้วให้เป็นลูกแก้วก่อนเพื่อคัดลูกแก้วที่บริสุทธิ์มาหลอมให้เป็นน้ำแก้วใหม่อีกครั้ง แต่ถ้าหากมีการควบคุมคุณภาพของส่วนผสมแล้ว ก็สามารถรีดเส้นใยจากน้ำแก้วในเตาได้เลย
ส่วน”ไฟเบอร์กลาส”ในความหมายของวัสดุเสริมแรงนั้น ผลิตได้สองวิธี คือ วิธีแรกนำชิ้นส่วนต้นแบบมาขัดผิวด้านนอกด้วยขี้ผึ้งถอดแบบ วางผ้าใยแก้วบนชิ้นส่วนต้นแบบ ทาด้วยเรซินที่ผสมตัวทำให้แข็งให้มีความหนาตามต้องการ เมื่อเรซินแข็งตัวแล้วดึงชิ้นส่วนไฟเบอร์กลาสออกจากชิ้นส่วนต้นแบบ นำมาขัดแต่งผิวด้านนอกให้เรียบร้อย การสร้างชิ้นส่วนไฟเบอร์กลาสด้วยวิธีนี้จะขาดรายละเอียดและความสวยงามแตกต่างจากวิธีที่สองที่ใช้แม่พิมพ์ วิธีนี้จะเหมาะสำหรับชิ้นส่วนจำนวนมาก แต่มีขั้นตอนยุ่งยากกว่าวิธีแรก โดยเราต้องสร้างแม่พิมพ์ขึ้นมาจากชิ้นส่วนต้นแบบเสียก่อน เมื่อได้แม่พิมพ์ แล้วจึงนำมาสร้างชิ้นส่วนไฟเบอร์กลาสที่ต้องการ ชิ้นส่วนที่สร้างขึ้นมามีความสวยงามเหมือนกับต้นแบบทุกประการ และสามารถเสริมความแข็งแรงในบริเวณที่ต้องการโดยเพิ่มความหนาของใยแก้วหลายๆ ชั้น Bring all the ingredients together in an electric oven at a high temperature of 1370 ° C to obtain a glass of water. Then it enters into a long filament process whereby the fibers are pulled out of the rolling heads and rolled at a speed higher than the speed of the fiberglass compressed from the rolling head. This is equal to elongation while the fibers are weak, resulting in smaller fibers before the erection. To make short fibers, it is done by cutting with wind. Can make fibers of different lengths.
However, in the melting process. If there is no control of the quality of the ingredients, then it is necessary to melt and make the glass as a glass to refine the pure glass to melt the glass again. But if quality control of the mixture. It can be rolled up the glass from the glass in the oven.
The “fiberglass” in the definition of reinforcing materials. There are two ways to produce the prototype: Put fiberglass on the prototype. Made of rigid resin to provide the required thickness. When the resin solidifies, remove the fiberglass pieces from the prototype. Scrub the skin to finish. Fiberglass fabrication in this way is lacking in detail and beauty differs from the second method using molds. This method is suitable for many parts. But there are more difficult steps than the first. We need to create a mold from the prototype. When the mold. Then we create the fiberglass components that we want. The parts that make up are as beautiful as the prototype. It can be reinforced in the desired area by adding several layers of fiberglass.The process of manufacturing fiberglass is called pultrusion.[citation needed] The manufacturing process for glass fibers suitable for reinforcement uses large furnaces to gradually melt the silica sand, limestone, kaolin clay, fluorspar, colemanite, dolomite and other minerals to liquid form. It is then extruded through bushings, which are bundles of very small orifices (typically 5–25 micrometres in diameter for E-Glass, 9 micrometres for S-Glass). These filaments are then sized (coated) with a chemical solution. The individual filaments are now bundled in large numbers to provide a roving. The diameter of the filaments, and the number of filaments in the roving, determine its weight, typically expressed in one of two measurement systems: yield, or yards per pound (the number of yards of fiber in one pound of material; thus a smaller number means a heavier roving). Examples of standard yields are 225yield, 450yield, 675yield. tex, or grams per km (how many grams 1 km of roving weighs, inverted from yield; thus a smaller number means a lighter roving). Examples of standard tex are 750tex, 1100tex, 2200tex.
These rovings are then either used directly in a composite application such as pultrusion, filament winding (pipe), gun roving (where an automated gun chops the glass into short lengths and drops it into a jet of resin, projected onto the surface of a mold), or in an intermediary step, to manufacture fabrics such as chopped strand mat (CSM) (made of randomly oriented small cut lengths of fiber all bonded together), woven fabrics, knit fabrics or uni-directional fabrics. Chopped strand mat
Chopped strand mat or CSM is a form of reinforcement used in fiberglass. It consists of glass fibers laid randomly across each other and held together by a binder.
It is typically processed using the hand lay-up technique, where sheets of material are placed in a mold and brushed with resin. Because the binder dissolves in resin, the material easily conforms to different shapes when wetted out. After the resin cures, the hardened product can be taken from the mold and finished. Using chopped strand mat gives a fiberglass with isotropic in-plane material properties.


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คุณสมบัติของผลิตภัณฑ์ไฟเบอร์กลาสเสริมแรง Product features fiberglass reinforcement.

1. ไม่เป็นสนิม และทนต่อการกัดกร่อน Corrosion Resistance: no rust. And corrosion resistance
2. ผลิตภัณฑ์ไฟเบอร์กลาสทนความร้อนได้ดีมาก สามารถทนอุณหภูมิตั้งแต่ -30ถึง +120 ขึ้นอยู่กับชนิดของเรซิ่นที่เลือกใช้ Temperature Resistance: Fiberglass Products heat very well. Can withstand temperatures from -30 to +120 depending on the type of resin used
3. Lightweight:น้ำหนัก เบาประหยัดค่าก่อสร้าง ด้วยน้ำหนักที่เบากว่าเหล็กถึง4เท่า ทำให้สะดวกต่อการยก ประกอบและติดตั้ง ช่วยประหยัดค่าใช้จ่าย
4. โครงสร้างแข็งแรงให้ตัวได้ ป้องกันการรั่วซึมหรือร้าว Flextural Strength: The strength to be built. Waterproofing or crack
5. ไม่เน่าเปื่อยหรือผุกร่อนทนทุกสภาวะสิ่งแวดล้อมคงรูปเดิมได้ดี ไม่มีการหด Long-lasting: non perishable or corrosion-resistant stable environment was good, no shrinking
6. ผิวเรียบเนียนทำให้แรงเสียดทานต่ำ Low coefficient of friction: make the skin smooth, low friction
7. เป็นฉนวนไฟฟ้าและไม่นำความร้อน Insulation: a. insulators and do not conduct heat
8. ในกรณีสุดวิสัย เมื่อเกิดการชำรุดเสียหายสามารถซ่อมได้ Repair: in the event of force majeure. When the damage can be repaired
9. การออกแบบและคำนวณตามมาตรฐานของ Engineering Design: The design and calculation of the standard of ASTM, JIS,. BS and is DIN
10. สีสวยสดใส ทนต่อแสงแดดและแสงยูวี And to the Resistance, UV-Grossy: Vibrant Color. Resistant to sunlight and UV light
An individual structural glass fiber is both stiff and strong in tension and compression—that is, along its axis. Although it might be assumed that the fiber is weak in compression, it is actually only the long aspect ratio of the fiber which makes it seem so; i.e., because a typical fiber is long and narrow, it buckles easily.[7] On the other hand, the glass fiber is weak in shear—that is, across its axis. Therefore, if a collection of fibers can be arranged permanently in a preferred direction within a material, and if they can be prevented from buckling in compression, the material will be preferentially strong in that direction.
Furthermore, by laying multiple layers of fiber on top of one another, with each layer oriented in various preferred directions, the material’s overall stiffness and strength can be efficiently controlled. In fiberglass, it is the plastic matrix which permanently constrains the structural glass fibers to directions chosen by the designer. With chopped strand mat, this directionality is essentially an entire two dimensional plane; with woven fabrics or unidirectional layers, directionality of stiffness and strength can be more precisely controlled within the plane.
A fiberglass component is typically of a thin “shell” construction, sometimes filled on the inside with structural foam, as in the case of surfboards. The component may be of nearly arbitrary shape, limited only by the complexity and tolerances of the mold used for manufacturing the shell.
The mechanical functionality of materials is heavily relied on the combined performances of both the resin (AKA matrix) and fibres. For example, in severe temperature condition (over 180 ?C) resin component of the composite may lose its functionality partially because of bond deterioration of resin and fibre.[8] However, GFRPs can show still significant residual strength after experiencing high temperature (200 ?C).


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 เกรตติ้งตะแกรงไฟเบอร์กล๊าสMolded Fiberglass Grating grating grating fiber glass.

Our molded fiberglass grating and pultruded fiberglass grating provide unmatched corrosion resistance properties, especially when compared to steel flooring products. Strength, long life and safety are also superior qualities of our fiberglass grating products, and their electrically non-conductive properties make them the ideal option for floor grating. We offer many types of fiberglass grating for all your different loading applications. Fiberglass grating applications range from architectural sun screening and fiberglass flooring to standard walkways and high load rolling applications. Grit surfaces and standard stock colors or custom colors are provided to suit your fiberglass application. Choose from our custom resin types for a fiberglass flooring product that is tailored to suit your corrosion resistance needs.
Molded fiberglass grating is a fiberglass-reinforced plastic (FRP) that combines fiberglass rovings with thermosetting resins to form a strong, one-piece molded panel. A 65%/35% resin to glass weight ratio provides high corrosion resistance. Meniscus surfaces or applied grit surfaces provide slip resistance when compared to steel flooring and other flooring products. This fiberglass grating product is better suited for corrosive environments. Pultruded Pultruded Fiberglass Grating
Pultruded fiberglass grating is made using premium grade isophthalic polyester, vinyl ester or phenolic resin systems with a synthetic surfacing veil, making it corrosion resistant, lightweight and durable. Pultruded fiberglass has a grit surface for safety and a greater strength to weight ratio than molded fiberglass grating. A 35%/65% resin to glass ratio provides greater strength and less corrosion resistance than molded fiberglass grating. This product is better suited for longer spans of fiberglass flooring.
Fiberglass Covered Grating Our fiberglass covered grating is a long-lasting, molded fiberglass flooring product that combines smooth, gritted or checker plate and molded grating manufactured with any of our resin systems. It is the ideal choice when floor grating needs to be 100% covered. Our fiberglass covered grating is often used in loading and storage areas with high foot and cart traffic, where a strong, level surface is ideal. It offers approximately 50% higher stiffness values than that of open mesh grating and its standard grit-top cover assures secure footing.
Bullet Resistant Fiberglass Plate Our bullet resistant fiberglass plate offers superior ballistic resistance at a weight less than 25% that of a comparable steel panel. Now available for commercial security fiberglass applications for your business, home or governmental facility, these fiberglass panels offer ballistic resistant security with the additional performance advantages of durability, corrosion resistance, electrical non-conductivity, low thermal conductivity and light weight.
Heavy Duty Fiberglass Grating Our heavy duty fiberglass grating is available in both molded and pultruded grating systems. Both types of heavy duty fiberglass grating are designed to carry forklift and tractor-trailer loads that traditional molded and pultruded FRP grating products are not designed to support. Heavy duty fiberglass grating provides greater durability for higher volume traffic areas as well. Additionally, Heavy Duty Fiberglass Grating can be used to free span longer distances than traditional fiberglass grating.
Fiberglass Stair Treads and Fiberglass Stair Tread Covers Lightweight and easy to install, fiberglass stair treads are available in both molded and pultruded types to match the fiberglass floor grating platforms. Fiberglass stair tread covers are made from a molded glass and resin system that is corrosion and impact resistant, fire retardant and non-conductive. They provide a cost effective, slip-resistant protective surface for concrete, metal and wood steps.
Fiberglass Grating Handrails and Fiberglass Ladders Fiberglass Grating Handrails and Fiberglass Ladders Fiberglass handrail systems are fabricated from pultruded fiberglass components and molded thermoplastic connectors. Our modular fiberglass grating handrail systems are available in 2-inch square or 2-inch round configurations that are easy to grip, making them ideal for any high traffic area. Our fiberglass ladders and cages can be installed in a variety of applications from sump pumps to tanks, buildings, piers, portable equipment, etc., providing years of strength and dependability.
Fiberglass Attachments and Fiberglass Clips Our fiberglass grating attachments and clips are specially designed to secure fiberglass grating or plates to the supporting structures. Additionally, they are used to fasten together adjacent grating panels, which minimizes load-induced differential deflection. All fiberglass attachments and clips are made of Type 316 stainless steel and are available in 1-, 1-1/2- and 2-inch sizes.
Fiberglass plates feature a non-conductive surface that makes them an economical and safe solution to walking surfaces. In caustic and/or acidic conditions, fiberglass plates provide a level of corrosion resistance that is unequaled and more cost effective than stainless steel. Fiberglass plate is available with a non-grit surface or with a grit surface where anti-slip traction is needed.
Fiberglass Structural Shapes Our fiberglass structural shapes and pultruded fiberglass profiles are made from a combination of fiberglass and thermosetting resin systems. All shapes are lightweight, impact resistant, low maintenance, non-magnetic, low conductive and have dimensional stability, making them easy to install and ideal for several applications. Custom shapes are available upon request.

Composite (GFRP) Gratings : What is GFRP (Glass Fiber Reinforced Plastic)? GFRP is a composite material made of a polymer matrix reinforced with fiber, aiming to form better physical and chemical properties. GFRP is a production material such as metal, wood, glass, concrete. GFRP materials has important advantages as against other production materials, new features can be acquired according to requirements. What is GFRP Grating? Molded GFRP gratings are produced in special molds with wet lamination process, consist of glass fiber, resin, additives and pigment. After these raw materials harden, GFRP gratings are pressed out of the mold. Molded GFRP gratings are light, anti-corrosive, have high chemical and physical resistances and electrically non-conductive. Components: Resin, glass fiber, additives and pigment are the basic components of the GFRP materials. It can be produced any material which are proper for the requirements by changing these components. Resin: Chemical resistance, flexibility and UV resistance of the GFRP gratings are determined by the resin. Resins are chose according to the environment; orthophthalic resin for general usage, isophthalic resin for chemical environment and vinyl ester resin for extremely heavy chemical environment. Glass Fiber: Multi-layered continuous glass fibers are used in production. Molded GFRP gratings have high mechanical resistance due to glass fiber. Additives: Additives such as UV stabilizers, flame retardants and low smoke density retardants increase mechanical and chemical resistance and add new superior features. Pigment: Pigments make it possible to give the GFRP gratings any color. This makes it happen to use GFRP gratings in architectural projects.

Molded Grating Pedestals Fibergrate Adjustable Grating Pedestals are high quality components designed to support elevated grating applications. Infinitely adjustable within their specified range, standard pedestals raise grating platforms and custom pedestals with cross bracing can raise floors above the base elevation. Pedestals are available for 1″, 1-1/2″ and 2″ deep square mesh Fibergrate or Chemgrate molded fiberglass gratings. Pedestal heads are stocked in “single head” and “quad head” designs facilitating quick, safe and economical installation of elevated platforms. • ADJUSTABLE – Create level walking surfaces on sloping floors • VERSATILE – Available for all Fibergrate and Chemgrate square mesh gratings • COST EFFECTIVE – Low installation cost, easily relocated to other areas • LIGHTWEIGHT – Modular, adjustable components are lightweight and reduce lifting • CORROSION RESISTANT – Thermoplastic polyester and pultruded vinyl ester are resistant to most industrial wet-floor applications

Grating Pedestal Supports Fibreglass Grating ? Grating Pedestal Supports From time to time, FRP grating will need to be supported in walkway areas where using traditional support and framing methods either cannot be used or are unsuitable to the working environment. Areas, such as, Chemical bunds, Raised floor platforms & work stations, Chemical Treatment Dosing Plant Rooms, Raised non slip walkway access across drainage floors and work spaces, Suspended floor grating, cable ladder runs, concealing pipe work and electrical services underneath, Areas required to be non conductive. our FRPP pedestal supports that can raise our FRP floor grating, and link into the mesh pattern of our grating. The panels of our grating can be joined, on the one pedestal eliminating multiple pedestals in the same area. The wide based pedestals can be fixed to the floor if required, and also to the top of our grating, using our 316 s/s hold down clips to suit. This provides an extremely solid base, which can take high loads. Available in a range of heights, and completely adjustable to accommodate uneven floors, we can supply a pedestal to suit your application.

FRP Stair Solutions – Stair Treads Fiberglass stair treads and stair covers are an essential complement to molded and pultruded grating installations. These corrosion and slip resistant treads are manufactured with a defined visible nosing and provide safe footing in the most challenging environments. Stair treads and covers can be supplied cut to precise customer specified sizes or in stock panels that are easily field fabricated.
stair tread covers are a convenient way to provide solid slip-resistant footing for existing treads that are still structurally sound. Stair tread covers may be installed over wood, concrete or metal treads. Standard industrial color is dark gray with a highly visible safety yellow nosing and light gray for architectural applications. An integral aluminum oxide grit-top surface provides secure footing for maximum safety and a highly durable tread. Reinforced with a woven glass mat for durability and impact resistance, these tread covers come in made to order widths. The standard thickness is various thick covers available for heavy duty applications. Standard long panels are easily cut to size during installation, or are available precut to custom lengths.
Phosphorescent Nosing :Fiber plate stair tread covers can be ordered with a special phosphorescent coating for the nosing area, causing it to glow even after the primary light source has been removed. The special nosing is perfect in stairways which serve as emergency exits during power outages, outdoor accessways where lighting is periodically dimmed as in arenas and concert halls or as a safety measure for nighttime operation in outdoor applications such as on passenger ships. This special nosing has been tested in accordance with ISO/TC Ships and Marine Technology – Low Location Lighting on Passenger Ships.
Fibreglass Grating > FRP Tread Covers > Tread Grip Some superior features of TreadGrip are. Durability: TreadGrip is a high quality composite of glass woven matting impregnated with isophthalic polyester resin. The energy absorption and flexibility of TreadGrip. ensures its long life, even in the busiest of environments. Slip Resistant: A compound of carbon and silicon grit is added in the final layer of laminate providing a superb slip resistant and hard wearing surface. Corrosion Resistant: TreadGrip is resistant to a wide range of chemicals and is perfectly suited for use even in the harshest of environments. Chemical resistance guides available on request. Simple to install: The versatility of TreadGrip. allows it to be applied to almost any surface such as concrete, steel or wood. The fact that it is supplied as a finished product means that it can be walked on straight away thus keeping disruption to a minimum.
supply FRP stair treads in both molded and pultruded grating profiles. Available in isopthalic, vinyl ester and phenolic fire retardant resin systems, to suit both industrial and domestic applications. Molded FRP stair treads come with a contrast nose edge as required by the Australian Standards for stairways to have a contrasting front edge (nosing) colour for ascending and descending stairs resulting in a safer stairway. Generally our stair treads colours are: Grey with yellow nosing. Other colours are available should you wish to match up with aesthetics and / or the environment. Available in our standard tread panels or we can cut to size, we welcome your enquiry. Our standard treads have an anti slip grit top surface, but we can also supply treads with a concave top which is also anti slip, but easy to clean, for example, for the food and beverage industry. Our treads are secured to the angle supports underneath using our 316 s/s Type M hold down clips – you can see those in the molded grating index on the “Installation Accessories” page.
If you own a building, run a business or manage a public space that has stairs then you are obliged to ensure that everyone using the stairs is safe. Anti Slip Stair Nosing is an excellent way to ensure that the stairs are as safe as possible. Anti Slip Stair Nosing can reduce the chances of accidents occurring dramatically. The leading edge of a stair can become slippery when wet and even internal stairs can become slippery during rain as people track the water inside. With high quality Edge Grip FRP Anti Slip Stair Nosing from Monaco you can make sure that the leading edge of the stairs are not slippery even in the wettest conditions. These anti slip stair nosings can be fitted in many different situations, including the following, public spaces, commercial areas and industries: Railway stations , Public squares and parks, Milking sheds,Industrial tank stairs,Industrial and commercial sites,Schools,Ski fields,Fire escapes, Oil rigs Ports Our Edge Grip FRP Anti Slip Stair Nosing comes in pre-formed robust fibreglass panels that are incredibly durable and the silicone carbon grit top finish provides a highly slip resistant surface. We offer two slip resistant surfaces, one light grit made for interior situations and the other heavier grit made for exterior uses. Edge Grip FRP Anti Slip Stair Nosing has a patented featheredge meaning that it can be fitted to virtually every type of step without creating a trip hazard making it the safest all-round Anti Slip Stair Nosing.

 

ตะแกรงไฟเบอร์กล๊าส Applications of Fibre Glass Grating

A cryostat made of fiberglass Fiberglass is an immensely versatile material due to its light weight, inherent strength, weather-resistant finish and variety of surface textures.
The development of fiber-reinforced plastic for commercial use was extensively researched in the 1930s. It was of particular interest to the aviation industry. A means of mass production of glass strands was accidentally discovered in 1932 when a researcher at Owens-Illinois directed a jet of compressed air at a stream of molten glass and produced fibers. After Owens merged with the Corning company in 1935, Owens Corning adapted the method to produce its patented “Fiberglas” (one “s”). A suitable resin for combining the “Fiberglas” with a plastic was developed in 1936 by du Pont. The first ancestor of modern polyester resins is Cyanamid’s of 1942. Peroxide curing systems were used by then. During World War II, fiberglass was developed as a replacement for the molded plywood used in aircraft radomes (fiberglass being transparent to microwaves). Its first main civilian application was for the building of boats and sports car bodies, where it gained acceptance in the 1950s. Its use has broadened to the automotive and sport equipment sectors. In production of some products, such as aircraft, carbon fiber is now used instead of fiberglass, which is stronger by volume and weight. Advanced manufacturing techniques such as pre-pregs and fiber rovings extend fiberglass’s applications and the tensile strength possible with fiber-reinforced plastics.
Fiberglass is also used in the telecommunications industry for shrouding antennas, due to its RF permeability and low signal attenuation properties. It may also be used to conceal other equipment where no signal permeability is required, such as equipment cabinets and steel support structures, due to the ease with which it can be molded and painted to blend with existing structures and surfaces. Other uses include sheet-form electrical insulators and structural components commonly found in power-industry products. Because of fiberglass’s light weight and durability, it is often used in protective equipment such as helmets. Many sports use fiberglass protective gear, such as goaltenders’ and catchers’ masks.
Storage tanks 
Several large fiberglass tanks at an airport Storage tanks can be made of fiberglass with capacities up to about 300 tonnes. Smaller tanks can be made with chopped strand mat cast over a thermoplastic inner tank which acts as a preform during construction. Much more reliable tanks are made using woven mat or filament wound fiber, with the fiber orientation at right angles to the hoop stress imposed in the side wall by the contents. Such tanks tend to be used for chemical storage because the plastic liner (often polypropylene) is resistant to a wide range of corrosive chemicals. Fiberglass is also used for septic tanks.
House building 
Glass-reinforced plastics are also used to produce house building components such as roofing laminate, door surrounds, over-door canopies, window canopies and dormers, chimneys, coping systems, and heads with keystones and sills. The material’s reduced weight and easier handling, compared to wood or metal, allows faster installation. Mass-produced fiberglass brick-effect panels can be used in the construction of composite housing, and can include insulation to reduce heat loss.

การป้องกันอันตรายจากไฟเบอร์กลาส Protection of fiberglass.

ในการทำงานไฟเบอร์กลาสมีความจำเป็นที่ผู้ทำงานประเภทนี้ต้องมีความรู้ในการป้องกันอันตรายจากผงหรือเส้นใยไฟเบอร์กลาส The fiberglass work is necessary for this type of work requires a knowledge of how to protect against dust or Fiberglass
1. การสูดผงใยแก้วเข้าไป ควรใช้ผ้าหรือหน้ากากกรองอากาศ ขณะทำงาน inhalation powder into fiber. Use cloth or air filter mask while working
2. ไม่ควรเปิดพัดลมจนเกิดการฟุ้งกระจาย ถ้าจำเป็นต้องเปิดให้อยู่เหนือลม Do not turn on the fan until dispersed. If you need to turn upwind
3. ควรใช้ถุงมือทุกครั้งขณะทำงานหลีกเลี่ยงการสัมผัสกับใยแก้วโดยตรง Always use gloves while working to avoid direct contact with fiberglass
4. เมื่อมีการเจียร หรือขัดงานไฟเบอร์กลาส ควรใช้แว่นตาสำหรับป้องกันเศษใยแก้ว When the wheel. Or polished fiberglass Protective eyewear should be used for scrap fiberglass
5. กรณีที่มีการสัมผัสจนเกิดอาการคันแล้ว ให้ใช้ดินน้ำมันหรือก้อนขี้ผึ้งเตะที่บริเวณคัน หรือใช้สบู่หรือผงซักฟอกฟอกบริเวณที่คัน แล้วใช้แปรงถูและน้ำฉีดแรง ๆ หรืออาจใช้น้ำอุ่นทำให้รูขุมขนขยายตัว The event is itching to touch it. Using clay or wax cubes from the vehicle area. Use soap or detergent or bleach around the country. Then use a brush to scrub and spray water pressure or hot water may cause pores to expand.

 

ใยแก้ว (Fiberglass)

Types of glass fiber used Main article: Glass fiber Composition: the most common types of glass fiber used in fiberglass is E-glass, which is alumino-borosilicate glass with less than 1% w/w alkali oxides, mainly used for glass-reinforced plastics. Other types of glass used are A-glass (Alkali-lime glass with little or no boron oxide), E-CR-glass (Electrical/Chemical Resistance; alumino-lime silicate with less than 1% w/w alkali oxides, with high acid resistance), C-glass (alkali-lime glass with high boron oxide content, used for glass staple fibers and insulation), D-glass (borosilicate glass, named for its low Dielectric constant), R-glass (alumino silicate glass without MgO and CaO with high mechanical requirements as Reinforcement), and S-glass (alumino silicate glass without CaO but with high MgO content with high tensile strength) Naming and use: pure silica (silicon dioxide), when cooled as fused quartz into a glass with no true melting point, can be used as a glass fiber for fiberglass, but has the drawback that it must be worked at very high temperatures. In order to lower the necessary work temperature, other materials are introduced as “fluxing agents” (i.e., components to lower the melting point). Ordinary A-glass (“A” for “alkali-lime”) or soda lime glass, crushed and ready to be remelted, as so-called cullet glass, was the first type of glass used for fiberglass. E-glass (“E” because of initial Electrical application), is alkali free, and was the first glass formulation used for continuous filament formation. It now makes up most of the fiberglass production in the world, and also is the single largest consumer of boron minerals globally. It is susceptible to chloride ion attack and is a poor choice for marine applications. S-glass (“S” for “stiff”) is used when tensile strength (high modulus) is important, and is thus an important building and aircraft epoxy composite (it is called R-glass, “R” for “reinforcement” in Europe). C-glass (“C” for “chemical resistance”) and T-glass (“T” is for “thermal insulator”—a North American variant of C-glass) are resistant to chemical attack; both are often found in insulation-grades of blown fiberglass. ใยแก้วหรือไฟบอร์กลาสเป็นวัสดุสังเคราะห์ชนิดหนึ่ง เป็นวัตถุดิบหลักที่ใช้ในการขึ้นรูปงานไฟเบอร์กลาส โดยทั่วไปจะแบ่งประเภทใยแก้วออกเป็นชนิต่างๆตามคุณสมบัติ ดังนี้
1. ชนิด A glass ( Alkali ) ใช้สำหรับงานที่ต้องการทนสารเคมีที่เป็นด่าง
2. ชนิด C glass ( Chemical ) ใช้สำหรับงานที่ต้องการทนสารเคมีที่เป้นกรดและกัดกร่อน
3. ชนิด E glass ( Electrical ป ใช้สำหรับงานที่ต้องการรับแรงและเป็นฉนวนป้องกันไฟฟ้าได้ดี
4. ชนิด S glass ( High Strength ) ใช้สำหรับงานที่ต้องการรับแรงสูงที่สูงกว่าชนิด E glass

ใยแก้วแบ่งเป็นชนิดต่างๆ ดังนี้ Fiber is divided into various types.

1. ใยแก้วชนิดผืนเส้นสั้น ( Chopped strands mat ) เป็นใยแก้วเส้นสั้นยาวประมาณ 1-2 นิ้ว โปรยลงบนผืนแบบ กระจาย เกาะตัวโดยประสานกาว(binder) มีสองแบบคือ fiber tracts Short Line (Chopped strands mat) is a fiber optic line length of 1-2 inches spatter adhesion on parcels distributed by soldering, adhesive (binder) there are two types
• แบบEmution มีลักษณะเป็นแผ่นเรียบแน่น เหมาะกับงาน ที่ต้องการ ความเรียบสมำเสมอ ไม่เคลื่อนตัว Type Emution look flat. tight fit applications requiring smooth evenness. Do not move
• แบบ Powder มีลักษณะเป็นแผ่นเส้นใยทอแบบหลวม เหมาะกับงานที่ต้องเข้าซอก มีมุมและซอกมาก ขนาดเรียกตามน้ำหนักต่อ ตารางเมตร มีขนาด 100 200 300 450 600 และ900 กรัม/ตารางเมตร ใช้กับงานไฟบอร์กลาสทั่วไป Custom Powder is a loose sheet of woven fibers. It fits the niche. There are a lot of corners and niches By measuring the weight per square meter 100 200 300 450 600 and 900 g / m². Bourne with a power glass General
2. ใยแก้วตาสาน ( Woven roving ) เป็นใยแก้วเส้นสั้นทอเป็นผืน เป็นรูปตาสาน มีขนาด 400 600 800 900 1,000 และ 1,200 กรัม/ตารางเมตรช่วยรับแรง เสริมกำลังให้สูงขึ้น ในทิศทางของเส็นใยแก้ว(2 ทิศทาง) apple fiber weave (Woven roving), a short glass fiber strands woven into a cloth woven with size 400 600 800 900 1,000 and 1,200 g / m to strength. Strengthening Higher Resolved to adopt the direction of the fiber (2-way)
3. ใยแก้วผ้าทอ ( Glass cloth ) เป็นใยแก้วเส้นเหมือนด้ายนำมาทอเป็นผืนผ้า เนื้อแน่น มีขนาด 30 60 90 100 160 200 และ 300 กรัม/ตารางเมตร ช่วยรับแรงกำลังได้ดี สามารถทำชิ้นงานได้บางเบา ใช้เสริมความแข็งแรงบริเวณขอบชิ้นงาน และบริเวณผิวบนและล่างสุดของงาน Glass cloth is a glass fiber thread, woven into a fine fabric with a size of 30 60 90 100 160 200 and 300 g / square meter. Help get good. Can work a little thin. Strengthen the edge of the workpiece. And the upper and lower surfaces of the work.
4. ใยสานแบบเย็บติด ( Stitch mat ) เป็นใยแก้วแบบผืน chopped strand mat เย็บด้วยเส้นใยโพลีเอสเตอร์ทั้งผืน เวลานำไปใช้งานแล้วใยแก้วจะไม่เคลื่อนตัว ทำให้ได้ชิ้นงานที่รับแรงและกำลังได้สมบูณณ์ขึ้น มีขนาด 300 450 600 และ 900 กรัม/ตารางเมตร Stitch mat is a chopped strand mat filled with polyester fiber. Glass fiber will not move at all. It has 300 450 600 and 900 g / m
5. ใยแก้วผิว ( Surfacing mat ) เป็นใยแก้วแบบผืนบางเหมือนกระดาษทิชชู มีขนาดน้ำหนัก 20 30 50 กรัม/ตารางเมตร ช่วยยึดเกาะผิวชั้นเจลโค๊ทให้แข็งแรงขึ้น และช่วยลดปริมาณฟองอากาศของชั้นเจลโค๊ทกับใยแก้วได้ Surfacing mat is fiberglass thin tissue. It has a weight of 20 30 50 g / m 2. Strengthens the gel coat layer. And reduce the amount of bubbles of the gel coat layer with fiberglass.
6. เทปไฟเบอร์ ( Glass tape ) เป็นเส้นใยแก้วนำมาทอเป็นผืน มีขนาดกว้าง 2นิ้ว 3 นิ้ว 4 นิ้ว ไว้ใช้สำหรับเชื่อมรอยต่อระหว่างแผ่นใยแก้ว และเสริมกำลังบริเวณขอบของชิ้นงาน Tape Fiber (Glass tape), a fiber woven piece measures 4 inches wide, 2 inches by 3 inches and are used for welding joints between sheets of glass.
And reinforce the edges of the workpiece
7. ใยแก้วเส้นด้าย ( Roving ) เป็นเส้นใยแก้วยาวตลอดทั้งม้วน เรียกตามน้ำหนัก/ความยาว 1 กม. เช่น TEX1200 = ความยาว 1 กม. หนัก 1 กก. ที่นิยมใช้มีขนาด 1200 2200 2400 4800 เป็นต้น แบ่งตามลักษณะการใช้งานดังนี้  fiberglass yarn (Roving) as long as the fiber roll. The weight / length of 1 km in length, as TEX1200 = 1 km weighs 1kg.
Commonly used measures 1200 2200 2400 4800 or by the use of the following • spray (spray up roving) with a spray glass fibers commonly used No. 2400
• แบบพ่น ( spray up roving ) ใช้กับเครื่องพ่นใยแก้วนิยมใช้เบอร์ 2400 A thousand (filament roving) in the duct to the water tank. with thousands of popular number 600 800 1100 2200 2400 4800
• แบบพัน ( filament roving ) ใช้ในการพันท่อทำถังน้ำกับเครื่องพัน นิยมใช้เบอร์ 600 800 1100 2200 2400 4800
• แบบดึง ( pultrution roving ) ใช้ในกระบวนการผลิตแบบดึงยาว นิยมใช้เบอร์ 2400 4800 pull (pultrution roving) used in the manufacturing process is long drawn popular number 2400 4800
• แบบSMC ( sheet moulding compound ) ใช้ทำแผ่น SMC นิยมใช้เบอร์ 2400 a SMC (sheet moulding compound) used sheet SMC used No. 2400
• แบบ PANEL ( corrugated sheet ) ใช้ทำหลังคาโปร่งแสง นิยมใช้เบอร์ 2400 a PANEL. (corrugated sheet) using a translucent roof using 2400 numbers
8. ใยแก้วเส้นสั้น ( Chopped strand ) เป็นเส้นใยแก้วเส้นสั้น ขนาดความยาวเส้น 3 6 9 12 มิลลิเมตร ใช้เพิ่มความแข็งแรงของชิ้นงาน fiberglass h. This short (Chopped strand) fiber lines are short. Length of lines 3, 6, 9, 12 mm increase the strength of the workpiece
9. ใยแก้วผง ( Glass powder ) เป็นผงใยแก้วสีขาว ใช้เพิ่มความแข็งแรง ป้องกันการขีดข่วนและแรงกระแทกบนผิวงาน Fiber Powder (Glass powder) as a white glass fiber powder. The increasing strength Prevent scratches and shocks on the surface
10. ใยแก้วแบบทิศทางเดียว ( Unidirection mat ) เป็นเส้นใยแก้วเรียงเป็นแถวในแนวเดียวกันตลอดทั้งผืน เย็บติดกันด้วยเส้นด้าย ( polyester yarn ) มีการเรียงเส้น 2 แบบ คือแบบแนวยาว และแบบแนวขวาง รับแรงและกำลังได้สูงในแนวยาวของเส้นใยแก้ว ทางใดทางหนึ่ง Fiber unidirectional (Unidirection mat) fibers are arranged in a row, in line throughout the piece. Sewn together with yarn (polyester yarn) are available on line 2 is a longitudinal and horizontal. And has been a strong force in the long axis of the fiber. either way


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โพลีเอสเตอร์เรซิ่น 
Polyester Resin

เป็นพลาสติกเหลวชนิดหนึ่ง มีลักษณะค้นคล้ายน้ำมันเครื่อง กลิ่นฉุนแข็งตัวด้วยความร้อนสูง เป็นวัตถุไวไฟชนิดหนึ่ง มีอตราการหดตัว 2-8% หลังเซทตัวเต็มที่ เรซิ่นสามารถหล่อขึ้นรูปได้มากมายหลากหลายรูปแบบ เรซิ่นสำหรับหล่องานทั่วไป หล่อพระ หล่อของที่ระลึก หล่อตุ๊กตาฯลฯ เรซิ่นสำหรับหล่องานไฟเบอร์กลาส และเรซิ่นสำหรับงานเคลือบ เช่น งานเคลือบกรอบรูปวิทยาศาสตร์ ในขณะทำการหล่อ เรซิ่นจะปล่อยกลิ่นเคมีออกมาซึ่งมีกลิ่นเหม็นฉุน ดังนั้นสถานที่ทำงานควรเป็นที่โปร่งอากาศถ่ายเทสะดวก ไม่ควรทำงานในสถานที่ที่เป็นห้องทึบตัน และไม่มีการไหลเวียนของอากาศหรือการระบายอากาศที่ดีพอ A type of liquid plastic A similar oil discovery Funk hardens with heat. It is a kind of flammable material Has enacted a contraction of 2-8% after the set fully. Resin casting can have many variants. Resin casting for general foundry casting of the memorial. Handsome dolls, etc. Casting resins for fiberglass. And resins for coatings, such as coatings Frame science. While the cast Resin to release the chemical smell was pungent with the smell. The workplace should be well-ventilated space. Should not work in a place that is a solid. And no air circulation or ventilation is good enough.

เรซิ่นแยกตามเกรดของคุณสมบัติของเนื้อเรซิ่นคือ Resin grades by the properties of the resin is drained.

1. เกรด ortho-phthalic type คือชนิดเกรดใช้งานได้ทั่วไป grade ortho-phthalic type is the type commonly used grade
2. เกรด isophthalic type คือชนิดที่ทนกรด-ด่างได้ดี grade isophthalic type is resistant acid – base well
3. เกรด bisphenol type คือชนิดที่ทนกรด-ด่างสูง grade bisphenol type is resistant acid – alkaline
4. เกรด chlorendics type ชนิดทนดรก-ด่าง สูง th grade chlorendics type resistant Dr. – alkaline
5. เกรด vinyl ester คือชนิดที่ทนกรด-ด่างสูงมาก แข็งแรง มีคุณสมบัติที่เป็นรองแค่ epoxy resingrade vinyl ester is resistant acid – base very strong, second only to qualified epoxy resin.

เรซิ่นแยกตามเนื้อเป็น 2 แบบ คือ Resin separate the meat into 2 types.

1. nonpromote คือเรซิ่นชนิดที่ยังไม่ผสมสารช่วยเร่งปฏิกิริยา ลักษณะของเนื้อเรซิ่นจะเป็นของเหลวค้นคล้ายน้ำมัน มีใสใสอมเหลือง จุดเด่นคือมีอายุการเก็บ 3 เดือน( สำหรับประเทศไทยซึ่งมีอากาศร้อนชื้นควรใช้ให้หมดภายใน 1เดือน เพราะเมื่อเข้าสู่เดือนที่2และ3 เรซิ่นจะเริ่มมีความหนดข้นขึ้นเรื่อยๆ) และยังสามารถประยุกต์สูตรได้อีกมากมาย เพื่อให้เหมาะสมกับรูปแบบงานต่างๆ โพลีเอสเทอร์เรซิ่น ชนิด non promote nonpromote the resin mixture that has not accelerate the reaction. The characteristics of the meat to the liquid resin similar oil discovery. A clear yellowish transparent The highlight is a shelf life of 3 months (for Thailand, which has a tropical climate should use it within one month, because when entering the month at 2 and 3. Resin will start with the thicker and more) and can also be applied to many recipes. To fit various formats. Polyester thermoplastic resin Promote Non
2. promote คือเรซิ่นชนิดที่ผสมสารช่วยเร่งฯ มาแล้ว ลักษณะของเนื้อเรซิ่นจะเป็นของเหลวค้นคล้ายน้ำมันเครื่อง แต่มีสีชมพูบานเย็นเพราะเป็นเรซิ่นที่ได้ผสมสารช่วยเร่งปฏิกิริยาแล้ว เมื่อนำมาใช้งานก็แค่เติมสารเร่งฯลงไป ในเรื่องของสีเรซิ่นนั้นบางบริษัทผู้ผลิดอาจมีการใช้สารช่วยเร่งที่แตกต่างดังนั้นเรซิ่นชนิดผสมสารช่วยเร่งบางตัวจะมีสีอล้ำคล้ายน้ำเฉาก๊วย และสำหรับชนิดที่ใช้กับงานหล่อใสแล้วเรซิ่นจะมีสี ใสอมน้ำเงินอ่อนๆ จุดเด่นคือใช้งานง่ายและคล่อง ไม่ยุ่งยาก แต่ข้อเสียคือมีอายุการเก็บสั้น อายุการเก็บไม่เกิน 2 เดือน ในการใช้งานจริงควรใช้ให้หมดภายใน 1 เดือน promote the resin mixture that accelerates the appearance of the meat, then resin is a liquid resembling oil discovery. Fuchsia pink, but there is a resin mixture that has already helped catalyst. When implemented, it just added to the catalyst. In terms of color and resin manufacturer, some companies may be using a different substance that accelerates the resin mixture to accelerate some of the advanced color like black jelly water. And for the use of the casting resin is transparent and colored. Transparent bluish tint Highlight is easy to use and hassle-free liquidity but the downside is the short shelf life. The shelf life of up to 2 months of use should actually use it within one month.


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คุณสมบัติของโพลีเอสเทอร์เรซิ่น Features of polyester thermoplastic resin.

เรซิ่นเป็นพลาสติกหล่อที่มีคุณสมบัติทั้งทางกายภาพ ทางไฟฟ้า และทางเคมี
คุณสมบัติทางกายภาพ มีคุณสมบัติให้เนื้อแข็ง ใส เงา ทนอุณหภูมิสูงดีกว่าพลาสติกชนิดเทอร์โมพลาสติก ( termoplastic ) แต่น้อยกว่าโลหะ เมื่อเสริมแรงด้วยใยแก้ว จะได้ความแข็งแรงที่เพิ่มมากขึ้น มีความเบา แข็งแรงเหนียว ไม่เปราะ คุณสมบัติทางไฟฟ้า เรซิ่นมีคุณสมบัติทางไฟฟ้าที่ครบถ้วน สามารถนำไปใช้เป็นฉนวนไฟฟ้า ( insulator ) ได้ Resin molded plastic that possesses the physical, chemical, electrical and
physical properties. Featuring a sleek, solid, clear, high temperature resistance than polyethylene thermoplastic (termoplastic) but less than metal. When reinforced with glass fiber It has a strong, growing a strong, lightweight, non-sticky brittle electrical properties. Resin has electrical properties intact. Can be used as a dielectric (insulator) has.

ลักษณะการใช้งานของโพลีเอสเตอร์เรซิ่น The use of polyester resin.

เรซิ่นนำไปใช้งานได้มากมายหลายกลุ่มงาน แต่แบ่งออกเป็น 3 กลุ่มใหญ่ๆที่นิยมใช้ในบ้านเรา ได้แก่ Resin used in many different workgroups. It is divided into three major groups commonly used in the US include
1. กลุ่มงานหล่อ ( casting ) เช่นหล่อพระ หล่อของชำร่วย หล่อตุกตา หล่อกระดุม หล่อแก้วเทียม ฯลฯ Casting (casting) cast as the handsome gift Dolly casting, casting, casting, glass buttons, harness, etc.
2. กลุ่มงานเคลือบ ( laminate ) เช่นงานเคลือบกรอบรูปวิทยาศาสตร์ coating (laminate) as coating. frame Science
3. กลุ่มงานขึ้นรูปแบบ ( molding ) เช่นการผลิตงานไฟเบอร์กลาส หรือ FRP ( fiberglass reinforce plastic ) พลาสติกเสริมแรงด้วยใยแก้ว Division molding (molding) products, such as fiberglass or FRP (fiberglass reinforce plastic) plastic reinforced with fiberglass

การแข็งตัวของเรซิ่น Hardening of the resin

โพลีเอสเทอร์เรซิ่นสามารถแข็งตัวได้หลายวิธีดังนี้ Polyester thermoplastic resin can be cured in several ways:
1. โดยใช้ตัว catalyst หรือตัวทำให้แข็ง + ความร้อน By using a catalyst or a heat hardening +
2. โดยใช้ตัว catalyst หรือตัวทำให้แข็ง + ตัวช่วยเร่งปฏิกิริยา promote/accelerator ที่อุณหภูมิห้อง by using a catalyst or hardener + Help catalyst. promote / accelerator At room temperature
3. โดยใช้แสงอุลตร้าไวโอเลต Using light, ultra-violet
4. โดยใช้อิเลคตรอน The sun
5. โดยให้แสงแดด Using heat.
6. โดยใช้ความร้อน
โดยทั่วไปการแข็งตัวของเรซิ่นแบ่งออกเป็น 2 ช่วงคือ ช่วงที่ 1. gel time คือช่วงหลังจากเติมตัว catalyst แล้วจนเรซิ่นจับตัวเป็นวุ้น ช่วงที่ 2. cure time คือช่วงที่เรซิ่นแข็งตัวเต็มที่และเป็นช่วงที่เรซิ่นเย็นตัวลงหลังจากที่มีความร้อนสูงในขณะทำปฏิกิริยา By heat
In general, the hardening of the resin is divided into two ranges: 1. The gel time is the period after the catalyst is added to the resin to capture the jelly 2. The cure time is the period of resin solidification and the period. Resins cool down after being heated while reacting.

องค์ประกอบที่มีผลต่อการแข็งตัวของเรซิ่น Elements that affect the hardening of the resin.

1. อุณหภูมิ อุณหภูมิสูงเรซิ่นแข็งตัวเร็วกว่าอุณหภูมิต่ำ temperature, high temperature, low temperature, resin hardens faster than
2. ปริมาณตัวเร่งฯ และ ตัวช่วยเร่งฯ ปริมาณที่มากแข็งตัวเร็วกว่าปริมาณที่น้อย The amount of the catalyst and accelerate the solidification of a very small amount faster than
3. ความชื้นหรือน้ำ ความชื้นสูงการแข็งตัวของเรซิ่นจะช้าลง ผิวงานขึ้นฝ้ามัว โดยปกติปริมาณน้ำที่อยู่ในเรซิ่นจะต้องมีค่าไม่เกิน 0.05% moisture or water. High humidity will slow down hardening of the resin. Finish up hazy Typically, the water content in the resin must be not more than 0.05%
4. ปริมาณออกซิเจน ออกซิเจนเป็นตัวป้องกันการแข็งตัวของเรซิ่น ถ้าปริมาณออกซิเจนสูง เช่นการกวนเรซิ่นมากๆ นานๆ การแข็งตัวของเรซิ่นจะช้าลง และออกซิเจนมีประโย๙น์มากในเรื่องการยืดอายุการเก็บของเรซิ่น หากเริ่มเก็บเรซิ่นไว้นานขึ้น ควรสร้างออกซิเจนให้เกิดในถังหรือปีบดว้ยการกลิ้งถังไปมา เพื่อให้เรซิ่นข้างในเกิดการเคลื่อนไหว จะเกิดออกซิเจน และจะทำให้เรซิ่นมีอายูการเก็บเพิ่มขึ้นอีกเล็กน้อยoxygen. Oxygen is an anti-clotting resin. If the amount of oxygen Such resins are stirring up the hardening of the resin is slower. 9 F and oxygen useful in prolonging the shelf life of resins. If you start picking up the resin. Should create an oxygen tank in a year or crushed with tanks rolling by. The resin in the movement. Oxygen is born And to make the resin having collected a little more.


Grating Know-How ดูข้อมูลเพิ่มเติม http://www.youtube.com/mktchancon


นวัตกรรมวัสดุสังเคราะห์ 
Innovative synthetic material

1. พลาสติก(Plastic) 2. คอมโพสิท(Composite) 3. เคฟล่าร์ “Kevlar” 4. คาร์บอนไฟเบอร์ (Carbon Fibers) 5. โพลียูรีเทนโฟม (Polyurethane Foam) 6. ABS (Acrylonitrile-Butadiene-Styrene) 7. Polypropylene (PP) Plastic

1. พลาสติกคืออะไร What is plastic

พลาสติกคือวัสดุสังเคราะห์ชนิดหนึ่ง ซึ่งมีความหมายกว้างมาก (เหมือนกับคำว่าสิ่งมีชีวิต ซึ่งหลากหลายมาก) พลาสติกเป็นวัสดุสังเคราะห์ที่มนุษย์รู้จักมานานกว่า ๑๓๐ ปี และนำมาใช้ประโยชน์ แทนโลหะ ไม้ หรือวัสดุธรรมชาติอื่นๆ เช่น สิ่งทอ เรือและวัสดุ บรรจุภัณฑ์ต่างๆ รวมทั้งอุปกรณ์และเครื่องใช้อื่นๆอีกมาก พลาสติกเป็นวัสดุที่สังเคราะห์วัตถุดิบที่ได้จากธรรมชาติ เช่น น้ำมันปิโตรเลียม มาแยกเป็นสารประกอบ บริสุทธิ์หลายชนิด เมื่อนำเอาสารประกอบแต่ละ ชนิดมาทำปฏิกิริยาก็จะได้ “พลาสติก” พลาสติกที่เกิดจากสารประกอบที่ต่างกันจะมีสมบัติแตกต่างกันไปด้วย Plastics are a type of synthetic material Which has a much broader meaning (As that creature. The huge variety) is a plastic material that the man known for over 130 years and is used instead of metal, wood or other natural materials such as textiles, ships and various packaging materials. Including equipment and much more. Plastic materials are synthetic materials derived from natural petroleum. A separate compound Many innocent When embraced each compound Type reaction would be “plastic” plastic of different compounds with different properties as well.

ประเภทของพลาสติก Types of Plastics

1. Thermoplastic (พลาสติกอ่อน)
พลาสติกอ่อนเมื่อถูกความร้อนแล้วจะอ่อนตัวหลอมละลาย และขณะเย็นตัวจะมีความแข็ง พลาสติกชนิดนี้สามารถนำไปหลอมละลายกลับไปใช้ใหม่อีกครั้งก็ได้ ดังนั้นเศษหรือของที่ใช้แล้วที่ทำจากพลาสติกชนิดนี้จึงสามารถนำไปบดแล้วหลอม ใช้ใหม่ได้ ได้แก่ โพลีเอทเทลีน(Polyethelene) โพลีโพรไพลีน( Polypropylene)โพลีไวนิลคลอไรด์(Polyvinyl Chloride) เป็นต้น Thermoplastic (Soft plastic)
soft plastic when heated and then melted to weaken. And while it cools to a solid. This type of plastic can be melted back to new again. So scrap or used, made of plastic, it can be crushed and melted reusable include poly poured lean (Polyethelene) Poly propylene pm (Polypropylene), polyvinyl chloride. Riverside (Polyvinyl Chloride), etc
2. Thermoseting (พลาสติกแข็ง)
พลาสติกแข็งเมื่อถูกความร้อนแล้วไม่อ่อนตัว แต่จะไหม้เกรียมไป ผลิตภัณฑ์พลาสติกชนิดนี้ เมื่ออัดขึ้นรูปหรือผสมใช้งานแล้วจะนำมาหลอมใช้อีกไม่ได้ ดังนั้นเศษหรือของที่ใช้แล้วที่จะทำพลาสติกประเภทนี้ จึงไม่สามารถนำมาบดหลอมใช้อีกได้ เนื่องจากแข็งตัวทำให้เนื้อพลาสติกเกิดการเปลี่ยนแปลงทางเคมี พลาสติกชนิดนี้ทำมาจากพลาสติกอ่อน โดยการเติมตัวเร่งที่เรียก ว่า Hardener ลงไปในเนื้อพลาสติกอ่อน ก็จะทำให้เนื้อแข็งขึ้นทันที มีความแข็งแรงค่อนข้างสูง เช่น เมลามีนฟอร์มาเดลไฮด์ (Melamine Formaldehyde) ฟีโนลิค(Phenolic ),โพลีเยสเตอร์( Polyester )รู้จักโพลีเยสเตอร์ดีในรูปของผลิตภัณฑ์ไฟเบอร์กล๊าส ยูรีเทน(Urethane ) อีฟอกซี่ ( Epoxy ) Thermoseting (hard plastic), hard plastic when heated, not weakness. But to be burned Products of this type When extrusion or mixed use would be fused to another does not. So scrap or used to do this type of plastic. It can not be melted, crushed another. The plastic hardens, making the body chemistry changes. Plastic is made from soft plastic. The addition of a catalyst called Hardener to the meat soft plastic. It will make it more solid. High strength, such as melamine-formaldehyde, formalin, Dale (Melamine Formaldehyde) Phenolic (Phenolic. ), Peter Hayes Poly (Polyester), known as poly Hayes a better product in the form of fiber glass. Urethane (Urethane) Fokker E (Epoxy). Peter Hayes Poly (Polyester), known as poly Hayes a better product in the form of fiber glass. Urethane (Urethane) Fokker E (Epoxy). Peter Hayes Poly (Polyester), known as poly Hayes a better product in the form of fiber glass. Urethane (Urethane) Fokker E (Epoxy).

2. คอมโพสิท(Composite)คืออะไร composite (Composite) is.

Composite เป็นชื่อเรียกของผลิตภัณฑ์ที่ประกอบด้วยวัสดุ ตั้งแต่สองชนิดขึ้นไป มาประกอบหรือร่วมมือกัน เพื่อใช้คุณสมบัติเด่นของแต่ละวัสดุ ตัวอย่างของวัสดุคอมโพสิท ที่เข้าใจได้ชัด ได้แก่ ยางรถยนต์ ซึ่งประกอบมาจากวัสดุหลักสองชนิดคือยางและเส้นลวดเหล็ก โดยใช้คุณสมบัติความแข็งแรงของเหล็กและการยืดหยุ่นของยางเพื่อความนุ่มนวล โดยใช้อย่างไดอย่างหนึ่งไม่ได้ หรือได้แต่ไม่ดี เช่น ถ้าใช้เหล็กอย่างเดียวก็จะไม่นุ่มนวล หรือใช้ยางอย่างเดียวก็จะน้ำหนักเยอะ และไม่แข็งแรง คอนกรีตเสริมเหล็ก เป็นอีก ตัวอย่างที่ใช้คุณสมบัติเด่น คอนกรีตในด้านการรับแรงอัดและราคาที่ถูกทนทาน หาง่าย กับเหล็กที่เด่นทั้งการรับแรงอัดและแรงดึงแต่ราคาสูงและ การซ่อมบำรุงสูงเนื่องจากเป็นสนิมได้ง่าย
หลายคนรู้จักไฟเบอร์กลาส ว่าเป็นวัสดุคอมโพสิตหรือพลาสติกเสริมแรง อย่างพลาสติกเสริมแรงด้วยเส้นใย (fiber-reinforced plastic, FRP) หรือ พลาสติกเสริมแรงด้วยแก้ว (glass-reinforced plastic, GRP) แต่แท้จริงแล้วไฟเบอร์กลาส คือ เส้นใยของแก้วที่ปั่นให้เป็นเส้นละเอียดบางๆ เพื่อนำมาใช้เป็นวัสดุเสริมแรงในพอลิเมอร์หลายประเภท รวมทั้งพลาสติกเรซินที่สามารถนำมาขึ้นรูปเป็นผลิตภัณฑ์ต่างๆ เช่น หลังคารถกระบะ อ่างอาบน้ำ เรือ ชิ้นส่วนเครื่องบินเล็ก ถังน้ำขนาดใหญ่ ชิ้นส่วนรถแข่ง เป็นต้น เพราะเส้นใยแก้วมีสมบัติความแข็งแรง ทนแรงดึงได้สูง ไม่เป็นสนิม และทนต่อการกัดกร่อน นอกจากนี้เส้นใยแก้วยังมีสมบัติด้านการเป็นฉนวนความร้อนที่ดีเหมาะที่จะนำมาใช้เป็นฉนวนในเตา ตู้เย็น หรือวัสดุก่อสร้างอีกด้วย Composite is the name of a product containing materials. Since two or more Or attributed to cooperate The salient features of each material. Examples of material composites. Tires are obviously understandable, which contains material from two main types of rubber and steel wire. The strength properties of steel and rubber elasticity to the skin. By using the one not. Or good, but not as if the steel alone is not soft. Or used tires as it weighs a lot. And unhealthy Concrete is another example of the outstanding features. In terms of concrete compressive strength and the prices are easy to find durable steel and high compressive strength and tensile strength but high. Maintenance due to rust easily.
Many people recognize fiberglass A composite material or reinforced plastic. A fiber-reinforced plastic (fiber-reinforced plastic, FRP) or glass reinforced plastic. (Glass-reinforced plastic, GRP) But in fact, the fiberglass fibers of glass that is spun into a fine thin line. To be used as a reinforcement material in polymer types. Including plastic resins that can be molded into products such as roofing pickup tub ship aircraft parts, small. A large water tank Car parts, etc., because the fiber strength properties. High tensile strength is rust and corrosion resistant. In addition, the fiber properties of the thermal insulation that is ideal to be used as insulation in refrigerators, stoves, or other materials. GRP), but in fact the fiberglass fibers of glass that is spun into a fine thin line. To be used as a reinforcement material in polymer types. Including plastic resins that can be molded into products such as roofing pickup tub ship aircraft parts, small. A large water tank Car parts, etc., because the fiber strength properties. High tensile strength is rust and corrosion resistant. In addition, the fiber properties of the thermal insulation that is ideal to be used as insulation in refrigerators, stoves, or other materials. GRP), but in fact the fiberglass fibers of glass that is spun into a fine thin line. To be used as a reinforcement material in polymer types. Including plastic resins that can be molded into products such as roofing pickup tub ship aircraft parts, small. A large water tank Car parts, etc., because the fiber strength properties. High tensile strength is rust and corrosion resistant. In addition, the fiber properties of the thermal insulation that is ideal to be used as insulation in refrigerators, stoves, or other materials.

Grating Know-How ดูข้อมูลเพิ่มเติม http://www.youtube.com/FRPGratingFiberglass

3. เคฟล่าร์ “Kevlar”

เป็นเส้นใยชนิด aramid ค้นพบโดย Stephanie Kwolek บริษัทดูปองท์ในปี 2514(ค.ศ.1971) ด้วยการสังเคราะห์ โดยอาศัยปฎิกิริยาควบแน่นจาก acid chloride ของ terephthaloylchloride(TPC) กับ p-phenylene diamine(PDA) เส้นใยเคฟล่าร์มักเน้นการใช้งานเพื่ออุตสาหกรรม กรณีของเคฟล่าร์ที่เป็นเส้นใยยาวใช้ในการทำผ้าใบยางรถยนต์ ท่อ และสายพานในอุตสาหกรรม เคฟลาร์ 29 ก็เช่นเดียวกันอยู่ในรูปของเส้นใยยาวใช้ทำสายเคเบิ้ล ร่มชูชีพ และเทปเสริมแรง ส่วน เคฟลาร์ 49 ในรูปของเส้นใยยาวและเส้นใยสั้นที่ทำเป็นแผ่น ใช้งานส่วนใหญ่ในด้านของพลาสติกเสริมแรงด้วยเส้นใย งานด้านอวกาศ ลำเรือ และงานก่อสร้างที่เกี่ยวข้อง มีความทนทานต่ออุณหภูมิสูงได้เป็นย่างดี และแข็งแกร่งเป็นเลิศ ซึ่งทนความร้อนได้ถึง 427 องศาเซลเซียส ทนกว่าเหล็กถึง 7 เท่า แต่ไม่ทนต่อแรงขูดขีด และไม่ยืดหยุ่น ซึ่งทำให้แตกหักได้ง่าย เมื่อถูกโค้งงออย่างแรง Aramid fiber is found by Stephanie Kwolek DuPont year. 2514 (1971) by synthesis. By condensation reactions of the acid chloride terephthaloylchloride (TPC) with p-phenylene diamine (PDA) Kevlar fibers are oriented applications to industry. The case of Kevlar, a fiber used to make burlap tire hoses and belts in Kevlar 29 is the same in the form of long fibers are used to make cables, parachutes and tape reinforcement of Kevlar. Millar, 49, in the form of long fibers and short fibers are made into sheets. Mainly active in the field of fiber reinforced plastic hull and construction work on the space involved. Are resistant to high temperatures for a roast. Strong and Excellence The heat resistant up to 427 degrees Celsius more resistant than steel and up to seven times, but not resistant to abrasion. And inflexible Which makes it fragile When bent sharply.

4. คาร์บอนไฟเบอร์ Carbon Fiber (Carbon Fibers).

จัดอยู่ในกลุ่มของพวกcomposite และมีคุณสมบัติเปลี่ยนแปลงไปตามลักษณะของการผลิต โครงสร้างพื้นฐานจะมีลักษณะเป็นเส้นใยเดี่ยวๆที่เล็กมาก ความแข็งแรงในแนวเส้นใยนั้นจะสูงมาก โดยสูงกว่าโลหะที่มีน้ำหนักเท่าๆกัน เมื่อนำคาร์บอนไฟเบอร์มาเรียงแนวไฟเบอร์ในทิศเดียวกัน โดยใช้กาวในกลุ่มEpoxy resin เป็นตัวประสาน ก็จะได้วัสดุที่มีลักษณะคล้ายๆกับไม้กระดานที่เราสามารถฉีกให้แยกจากกันได้ในแนวเสี้ยนไม้ แต่ไม่สามารถหักขวางแนวของไยไม้ได้ การนำคาร์บอนไฟเบอร์มาใช้งานนั้นจึงจำเป็นต้องมีการนำมาสานกันในแนวที่เส้นใยขวางกัน หรือไขว้กัน คล้ายๆกับกระดานไม้อัด จึงทำให้สามารถรักษาแนวความแข็งแรงไว้ได้ การออกแบบจึงต้องมีความเหมาะสมกับลักษณะของการใช้งานและแนวการรับแรงเป็นสำคัญ สำหรับการนำคาร์บอนไฟเบอร์มาใช้งาน การผลิตขึ้นมาจึงต้องคำนึงถึงลักษณะของการใช้งานเป็นสำคัญ ความแข็งแรงของวัสดุที่ทำมาจากคาร์บอนไฟเบอร์ เช่น ท่อ หรือ ขาจาน จะมีความแข็งแรงมากกว่าโลหะ จึงสามารถทำให้เบาลงได้โดยที่ยังคงความแข็งแรงได้มากกว่าโลหะที่มีขนาดเท่าๆกันนั้น อายุการใช้งานของคาร์บอนไฟเบอร์นั้นจัดว่าทนทานมาก ความแข็งแรงหรือความทนทานของคาร์บอนไฟเบอร์นั้นส่วนหนึ่งเกิดมาจากepoxy resin ที่เป็นตัวประสานระหว่างเส้นใยและระหว่างชั้น Is in their composite. And has changed the nature of the production. Infrastructure will have a very small single fiber. The strength in the fiber is very high. The higher the metal with the weight evenly. When the carbon fibers are arranged vertically in the same direction. Epoxy resin is used in the adhesive binder. It is a material that looks like a plank that we can tear them apart in the vertical grain wood. It can not be broken across the line of wood fiber. Carbon fiber is used, it must have been woven together in a vertical or transverse fibers cross each other with plywood boards. You can maintain vertical stiffness save. The design must be appropriate to the nature of the applications and the reception strength is important. For carbon fiber applications. The manufacturer must take into account the nature of the work is important. The strength of the material, made of carbon fiber, such as pipe or plate is stronger than metal. It can be lighter without sacrificing strength than the metal that is equally so. The lifetime of the carbon fiber is considered very durable. The strength or durability of carbon fiber is part of the epoxy resin as a binder between the fibers and between layers.

5. โพลียูรีเทนโฟม The polyurethane foam. (Polyurethane Foam)

เป็นพลาสติกเหลวชนิดทอร์โมเซ็ตติ้ง (Thermosetting) ที่นิยมนำมาใช้งานประดิษฐ์ เช่น ทำเลียนแบบไม้เทียม (ขนาดของเม็ดโฟมจะเล็กมาก) ทำกันชนรถยนต์ ส่วนประกอบภายในรถ เช่น พวงมาลัยและแผงคอนโซล การทำขาเทียม และการสร้างความแข็งแรงให้กับชิ้นงานหรือแม่พิมพ์(เม็ดโฟมมีขนาดใหญ่กว่า) ตลอดจนการนำมาฉีดเพื่อเป็นฉนวนของห้องเย็น มีลักษณะเป็นของเหลว 2 ชนิด
ชนิดที่ 1 มีสีเหลืองคล้ายโพลีเอสเทอร์เรซิ่น เรียกว่า โฟมขาว หรือ โพลิออล (polyol)
ชนิดที่ 2 มีสีน้ำตาลไหม้เกือบดำ เรียกว่า โฟมดำ หรือ ไดไอโซไซยาเนต (diisocyanate)
โพลียูรีเทน เป็นกลุ่มโพลีเมอร์ ที่ใช้กันแพร่หลายเนื่องจาก เป็นวัสดุยืดหยุ่น อ่อนนุ่มจนถึงวัสดุที่มีความแข็งแรง และมีน้ำหนักเบา โพลียูรีเทน แบ่งออกเป็นสามกลุ่มด้วยกันคือ A liquid plastic woven thermoplastic Settings. (Thermosetting) commonly used artificial implant such as imitation wood. (The size of the foam is very small) do bumper cars. Flammable liquids 2
Type 1 like yellow polyester thermoplastic resin called white foam or polyol (polyol)
type 2 umber almost black, called foam black or ISBN. So cyanate (diisocyanate)
polyurethane polymers in bulk. Widely used because A flexible material The material is soft to strong. And lightweight polyurethane divided into three groups, namely
– โพลียูรีเทน โฟมชนิดยืดหยุ่น (flexible polyurethane foam)
– โพลียูรีเทน โฟมชนิดแข็ง (rigid polyurethane foam)
– อิลาสโตเมอร์ (polyurethane elastomers)

 

6. ABS (Acrylonitrile-Butadiene-Styrene)

ABS is a low cost engineering plastic that is easy to machine and fabricate. ABS is an ideal material for structural applications when impact resistance, strength, and stiffness are required. It is widely used for machining pre-production prototypes since it has excellent dimensional stability and is easy to paint and glue. Natural (beige) ABS and black ABS are FDA compliant for use in food processing applications. The following physical property information is based on typical values of the base acrylonitrile-butadiene-styrene resin.
ABS is a terpolymer made by polymerizing styrene and acrylonitrile in the presence of polybutadiene. The proportions can vary from 15 to 35% acrylonitrile, 5 to 30% butadiene and 40 to 60% styrene. The result is a long chain of polybutadiene criss-crossed with shorter chains of poly(styrene-co-acrylonitrile). The nitrile groups from neighboring chains, being polar, attract each other and bind the chains together, making ABS stronger than pure polystyrene. The styrene gives the plastic a shiny, impervious surface. The polybutadiene, a rubbery substance, provides toughness even at low temperatures. For the majority of applications, ABS can be used between -20 and 80 C (-4 and 176 F) as its mechanical properties vary with temperature. The properties are created by rubber toughening, where fine particles of elastomer are distributed throughout the rigid matrix.
The most important mechanical properties of ABS are impact resistance and toughness. A variety of modifications can be made to improve impact resistance, toughness, and heat resistance. The impact resistance can be amplified by increasing the proportions of polybutadiene in relation to styrene and also acrylonitrile, although this causes changes in other properties. Impact resistance does not fall off rapidly at lower temperatures. Stability under load is excellent with limited loads. Thus, by changing the proportions of its components, ABS can be prepared in different grades. Two major categories could be ABS for extrusion and ABS for injection moulding, then high and medium impact resistance. Generally ABS would have useful characteristics within a temperature range from ?20 to 80 C (?4 to 176 F). Lego bricks are made from ABS.
The final properties will be influenced to some extent by the conditions under which the material is processed to the final product. For example, molding at a high temperature improves the gloss and heat resistance of the product whereas the highest impact resistance and strength are obtained by molding at low temperature. Fibers (usually glass fibers) and additives can be mixed in the resin pellets to make the final product strong and raise the operating range to as high as 80 C (176 F). Pigments can also be added, as the raw material original color is translucent ivory to white. The aging characteristics of the polymers are largely influenced by the polybutadiene content, and it is normal to include antioxidants in the composition. Other factors include exposure to ultraviolet radiation, for which additives are also available to protect against.
ABS polymers are resistant to aqueous acids, alkalis, concentrated hydrochloric and phosphoric acids, alcohols and animal, vegetable and mineral oils, but they are swollen by glacial acetic acid, carbon tetrachloride and aromatic hydrocarbons and are attacked by concentrated sulfuric and nitric acids. They are soluble in esters, ketones, ethylene dichloride and acetone. Even though ABS plastics are used largely for mechanical purposes, they also have electrical properties that are fairly constant over a wide range of frequencies. These properties are little affected by temperature and atmospheric humidity in the acceptable operating range of temperatures.
ABS is flammable when it is exposed to high temperatures, such as those of a wood fire. It will melt and then boil, at which point the vapors burst into intense, hot flames. Since pure ABS contains no halogens, its combustion does not typically produce any persistent organic pollutants, and the most toxic products of its combustion or pyrolysis are carbon monoxide and hydrogen cyanide. ABS is also damaged by sunlight. This caused one of the most widespread and expensive automobile recalls in US history due to the degradation of the seatbelt release buttons.
ABS can be recycled, although it is not accepted by all recycling facilities. Production
ABS is derived from acrylonitrile, butadiene, and styrene. Acrylonitrile is a synthetic monomer produced from propylene and ammonia; butadiene is a petroleum hydrocarbon obtained from the C4 fraction of steam cracking; styrene monomer is made by dehydrogenation of ethyl benzene — a hydrocarbon obtained in the reaction of ethylene and benzene.
ABS combines the strength and rigidity of acrylonitrile and styrene polymers with the toughness of polybutadiene rubber. While the cost of producing ABS is roughly twice the cost of producing polystyrene, it is considered superior for its hardness, gloss, toughness, and electrical insulation properties.

 

7. Polypropylene (PP) Plastic

What is Polypropylene (PP), and What is it Used For? 
Polypropylene (PP) is a thermoplastic “addition polymer” made from the combination of propylene monomers. It is used in a variety of applications to include packaging for consumer products, plastic parts for various industries including the automotive industry, special devices like living hinges, and textiles. Polypropylene was first polymerized in 1951 by a pair of Phillips petroleum scientists named Paul Hogan and Robert Banks and later by Italian and German scientists Natta and Rehn. It became prominent extremely fast, as commercial production began barely three years after Italian chemist, Professor Giulio Natta, first polymerized it. Natta perfected and synthesized the first polypropylene resin in Spain in 1954, and the ability of polypropylene to crystallize created a lot of excitement. By 1957, its popularity had exploded and widespread commercial production began across Europe. Today it is one of the most commonly produced plastics in the world. CNC Cut Polypropylene Living Hinge Prototype Child Safe Lid, CNC Cut Polypropylene Living Hinge Prototype Child Safe Lid by Creative Mechanisms
According to some reports, the current global demand for the material generates an annual market of about 45 million metric tons and it is estimated that the demand will rise to approximately 62 million metric tons by 2020. The major end users of polypropylene are the packaging industry, which consumes about 30% of the total, followed by the electrical and equipment manufacturing, which uses about 13% each. Household appliances and automotive industries both consume 10% each and construction materials follows with 5% of the market. Other applications together make up the rest of the global polypropylene consumption.
Polypropylene has a relatively slippery surface which can make it a possible substitute for plastics like Acetal (POM) in low friction applications like gears or for use as a contact point for furniture. Perhaps a negative aspect of this quality is that it can be difficult to bond Polypropylene to other surfaces (i.e. it does not adhere well to certain glues that work fine with other plastics and sometimes has to be welded in the event that forming a joint is required). Although polypropylene is slippery at the molecular level, it does have a relatively high coefficient of friction – which is why acetal, nylon, or PTFE would be used instead. Polypropylene also has a low density relative to other common plastics which translates to weight savings for manufacturers and distributors of injection molded Polypropylene parts. It has exceptional resistance at room temperature to organic solvents like fats but is subject to oxidation at higher temperatures (a potential issue during injection molding).
One of the major benefits of Polypropylene is that it can be manufactured (either through CNC or injection molding, thermoforming, or crimping) into a living hinge. Living hinges are extremely thin pieces of plastic that bend without breaking (even over extreme ranges of motion nearing 360 degrees). They are not particularly useful for structural applications like holding up a heavy door but are exceptionally useful for non load-bearing applications such as the lid on a bottle of ketchup or shampoo. Polypropylene is uniquely adept for living hinges because it does not break when repeatedly bent. One of the other advantages is that polypropylene can be CNC machined to include a living hinge which allows for faster prototype development and is less expensive than other prototyping methods. Creative Mechanisms is unique in our ability to machine living hinges from a single piece of polypropylene.
Another advantage of Polypropylene is that it can be easily copolymerized (essentially combined into a composite plastic) with other polymers like polyethylene. Copolymerization changes the material properties significantly, allowing for more robust engineering applications than are possible with pure polypropylene (more of a commodity plastic on its own).
The characteristics mentioned above and below mean that polypropylene is used in a variety of applications: dishwasher safe plates, trays, cups, etc, opaque to-go containers, and many toys.

What are the Characteristics of Polypropylene? 
Some of the most significant properties of polypropylene are:
Chemical Resistance: Diluted bases and acids don’t react readily with polypropylene, which makes it a good choice for containers of such liquids, such as cleaning agents, first-aid products, and more.
Elasticity and Toughness: Polypropylene will act with elasticity over a certain range of deflection (like all materials), but it will also experience plastic deformation early on in the deformation process, so it is generally considered a “tough” material. Toughness is an engineering term which is defined as a material’s ability to deform (plastically, not elastically) without breaking..
Fatigue Resistance: Polypropylene retains its shape after a lot of torsion, bending, and/or flexing. This property is especially valuable for making living hinges.
Insulation: polypropylene has a very high resistance to electricity and is very useful for electronic components.
Transmissivity: Although Polypropylene can be made transparent, it is normally produced to be naturally opaque in color. Polypropylene can be used for applications where some transfer of light is important or where it is of aesthetic value. If high transmissivity is desired then plastics like Acrylic or Polycarbonate are better choices.
Polypropylene is classified as a “thermoplastic” (as opposed to “thermoset”) material which has to do with the way the plastic responds to heat. Thermoplastic materials become liquid at their melting point (roughly 130 degrees Celsius in the case of polypropylene). A major useful attribute about thermoplastics is that they can be heated to their melting point, cooled, and reheated again without significant degradation. Instead of burning, thermoplastics like polypropylene liquefy, which allows them to be easily injection molded and then subsequently recycled. By contrast, thermoset plastics can only be heated once (typically during the injection molding process). The first heating causes thermoset materials to set (similar to a 2-part epoxy) resulting in a chemical change that cannot be reversed. If you tried to heat a thermoset plastic to a high temperature a second time it would simply burn. This characteristic makes thermoset materials poor candidates for recycling.

Project Reference ดูข้อมูลเพิ่มเติม…..

 

แนะนำสินค้า ตะแกรง-ฝาบ่อ ทันสมัย ไร้สนิม Recommended screenings – modern stainless pond scum.

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GFRP Composite Steel Gully Scupper Driveway Grating Grilles, Culvert Conduit Trench Drainage Ditch, Cast Ductile Iron Manhole Grid Covers Catch Basins, Raised Access Floor Walkway Pavement, Bar Grate Mounting Saddle Clip Lock Clamp Fastenal Anchor Fastener ตัวล็อคเหล็กยึดแผงตะแกรง, Formworks Tied Rod ThreadBar WaterStopper Anchorage WingNut, ฝาท่อระบายน้ำเหล็กหล่อเหนียว, , ฝาท่อไฟเบอร์ผสมเรซิ่น, ฝาเปิดปิดถังแมนโฮล แฮนโฮล, ฝาปิดครอบท่อบ่อพักกรองเกรอะ, ฝาปิดท่อระบายน้ำเสีย น้ำดี, แผ่นปูร่องน้ำ ฝาปิดท่อทรงกลม-สี่เหลี่ยม, ฝาปิดคอนกรีตปูนซีเมนต์เสริมเหล็ก, ฝาปิดงานระบบบำบัดรวบรวมน้ำเสียทิ้งชนิดสั่งตัดได้ทันที; เกรตติ้ง, เกรทติ้ง, ฝาตะแกรงเหล็กแผ่นเชื่อมสำเร็จรูป, กรอบตะแกรงปกป้องรอบโคนต้นไม้, แผ่นปิดจมูกขอบมุมคิ้วแผงครอบบันไดกันลื่น Perforated Pegboard Hook Shelves Racking Storage Tools DIY Kit แผ่นกระดานเพ็กบอร์ดแผงเหล็กเจาะรูติดผนังกำแพงแขวนเก็บอุปกรณ์เครื่องมือช่าง, #โรงงานผลิตจำหน่ายPegboard Tools Holder Rack Hard Board Store Organizing Display กระดานบอร์ดแผ่นอลูมิเนียมเหล็กไม้ เจาะรูยึดติดผนังตกแต่งบ้านห้องครัว, #แผ่นกระดานไม้เหล็กแผ่นพับขึ้นรูปเจาะรู อุปกรณ์ที่ใช้กับชั้นวางเหล็ก Trench basin scupper Dust screen driveway side drainage grating traffic road highway, Leaf trapper safe scupper drainage traffic grates along side of highway, storm curb with inlet grating and drain box ฝายตะแกรงหวีดักแยกเศษขยะลอยใส่ช่องระบายน้ำตรงขอบฟุตบาท ดักฝุ่นผงตะกอนขยะ เศษอาหาร ใบไม้ กระดาษ คันหินกล่องช่องตะแกรงรับน้ำคสล. แบบเต็มครึ่งท่อนหัวมนเทเปอร์ รางยูด้านข้างริมฟุตบาท, สเปคตามมาตรฐานของเทศบาล กรมโยธาธิการและผังเมือง กรมทางหลวงชนบท การเคหะแห่งชาติ การทางพิเศษแห่งประเทศไทย ผู้เชี่ยวชาญแผ่นพลาสติกระบายน้ำล้นรอบสระว่ายน้ำ รองพื้นปูร่องน้ำทดแทนเหล็ก, PP PVC PE ABS Swimming Plastic Grating, แผงกั้นกระจกหน้ากากร้าน ตึก อาคาร, หุ้มผนังภายนอก, แผ่นปูพื้นทางเดิน ไหล่ทางเท้า,ปูรองรับสินค้าจากสายพานลำเลียง, ยกระดับพื้นบ้านและสวน เขตอนามัยกันไฟฟ้าสนามเวทีแสดงประกวด, บล็อกปลูกหญ้า ลวดชุบพลาสติก ลายหลากหลายให้เลือก สามารถนำไปตัดและตกแต่งเพิ่่มเติมเป็นเฟอร์นิเจอร์ลายฉลุ ผนังลายฉลุ ใช้ตกแต่งประกอบสถานที่ต่างๆสวยงามและเป็นเอกลักษณ์
อลูมิเนียมคอมโพสิทสิต, เอฟอาร์พี, ทนสึกกร่อน สนิม ความร้อน ไฟ กรด ด่าง เคมี, ประหยัดพลังงาน ไม่บวมน้ำ ปราศจากสารพิษ ไม่ลามไฟ, ไฟเบอร์กลาสหรือใยแก้วชนิดพิเศษคืออะไร, Pantip Siam Steel, Fibergrate Strongwell Webforge Hilti, knack mch dos, SCG HOmepro Depot ไทวัสดุ, งานซ่อมแซมพื้น, วัสดุเคลือบพื้นผิว, อีพ็อกซี่, อีพ๊อคซี่, อีพ็อคซี่, พื้นอีพ๊อกซี่,โพลียูรีเทน, พีวีซี กาว,ไบโอ Bio, PE PU concrete, coating, stone hard, ปรับปรุงพื้นโรงงานอุตสาหกรรม, ครัว โรงแรม, เคลือบบ่อทนสารเคมี, อะครีลิค, ซ่อมรอยแตกร้าวรั่วซึม, โค้ทติ้ง, กันซึมดาดฟ้า, บ่อเก็บสารเคมี, รางน้ำไฟเบอร์กล๊าส, หลังคาเมทัลชีท, วัสดุทดแทนเหล็ก, ไม้เทียมสังเคราะห์, ชีวภาพ, รีไซเคิล, อุปกรณ์, ฟลอรูฟเดรน, พื้นกันสึก กันกระแทก, รางน้ำล้นรอบขอบสระว่ายน้ำ, แผ่นเรียบบานเกล็ด, แผ่นพื้นยางปูพื้นรอบแท่นเครื่องจักร, พาเลท ถาดรอง ชั้นวาง, พื้นโรงเรือน บล็อกตัวหนอน บล็อคปูถนน ตกแต่งพื้นสนามหญ้า, ทางเดิน แท่งรางตัวยู ระบายน้ำทิ้ง ริมขอบฟุตบาท, วายเมท, วาย ไวร์เมช, พร้อมเฟรมช่องระบายน้ำ, ลวดเหล็กฉีก พับฉลุเจาะรู, เหล็กยืดคาร์บอนไฟเบอร์, ลายตีนเป็ด ไก่, รางระบายน้ำฝน, ขั้นบันไดกันลื่น, ราวกันตก, มินิตะข่ายกันกลิ่น, บล๊อคปูถนนภายนอก, ตกแต่งบ่อปลาคราฟ, ภูมิทัศน์, กระเบื้อง, ปูพื้นเครื่องจักรยกระดับ, ปรับเปลี่ยนฮวงจุ้ย , DIY ติดตั้งง่ายด้วยตัวเอง, ซื้อที่ใหน ราคาเท่าไร Ventilation grilles suspended ceiling textures, Splashboard/ Weatherboard/ Slat blinds/ Trellis shade, Awning Wall Panels, Colorful General Sun Screen Partition, Anti-Bird Control Netting, Mini decorative Grating Curtains, Sculpture grid cover opened cell ceiling Application: office places, meeting room, supermarket, school, corridor, toilet bath room, hospital, re-decoration works, ฉากแผ่นฝ้าเพดานผนังม่าน รั้วราวแผงกั้นพาร์ทิชั่น หลังคากันสาดระแนงบังตาตะข่าย บานพับเฟี้ยมซุ้มไม้เลื้อยกำแพง, แผงระแนงด้านนอกบังตาหน้ากากตึกตะแกรงกั้นช่องแสงบังไฟ, โคมติดลอยตะแกรงฝังฝ้าทีบาร์, แผ่นฝ้าเพดานแบบเกี่ยวแขวน, ฉากฝาผนังเบา ม่านโปร่งทึบแสง ตกแต่งเอนกประสงค์ กันสาดบังตา ระแนงบานพับเฟี๋ยมซุ้มไม้เลื้อยรับลม, ตาข่ายป้องกันคลุมนก, แผ่นกั้นขับไล่นกงูกระรอก, แผงแบ่งกั้นสั่งประกอบ ดีไลท์,โพลีคาร์บอเนต ไวนิล, กั้นออฟฟิศสำนักงาน ห้องน้ำ, ระเบียง หน้าบันได แผ่นลายฉลุหลายขนาด ฝ้าตกแต่งปิดงานระบบแอร์ สายไฟ, กั้นห้อง, คุณภาพสูงเกรดเอ ดีไซด์สวยหรูคู่อาคาร
GFRP Composite Diamond Top Manhole Covers Checker Plate surface (ฝาตะแกรงทึบปิดบ่อครอบท่อพักไฟเบอร์กล๊าสกันลื่น) www.chancon.co.th GRATING SPECIALIST SOLUTIONS and HOW TO INSTALLATION: Outdoor Round Square Rectangle, Circle Circular, Fabricated Simple Culvert Gully, Tile Strip Cell Ceilings Gratings, Pass way Basement Sidewalk, plastic grid paving, Sealed Manhole, Hand hole Lifting Lifter, Catch Basins, Residential Trench Drainage Cell, Clean out, Driveway Floor Shower Drain Grates, Sewer, Recessed Cover, Pipes Clogged, Ductile Casting Grey Iron, replacement stainless steel, Hybrid Wood Lumber WPC fiber cement, Checkered Duck plate, Fittings, Sanitary, hatch box, remover, block masonry paving unit, dish drainer, Channel opener, Vessel, Ventilation Valves, Filter, Pool, pump, Ships, Replacing contaminated area, conductive, Corrosion resistance frame, Lattice, Rain Shooter Water, Trash rack Egg Crate Grille Diffuser Divider Lighting Aquarium Panel, White Polystyrene Egg crate for air returns and venting. ตะแกรงกั้นช่องแสงบังไฟ อุปกรณ์ตกแต่งตู้เลี้ยงปลาสวยงาม EggCrate Fluorescent Ceiling Grille Lighting Screen Filter Media Diffusers Panel, DIY Abstract Plastic material board Pond Marine Aquarium, HVAC air vector acrylic return/Double deflection Grid Louver, terrarium vivarium ใช้สำหรับสร้างเป็นแผงตะแกรงเพื่อกั้นช่องไฟกรองแสงจากหลอดแอลอีดี/ฟลูออเรสเซนต์ (Led/Fluorescent) แผงฉากแผ่นฝ้าเพดาน ผนังม่าน ระแนงบังตาหน้ากากกรองช่องลม แผ่นบานเกล็ดรูระบายอากาศ ครอบคลุมปกปิดงานระบบไฟฟ้าประดับอาคาร แผงกั้นบังไฟตกแต่งตู้โชว์สินค้า ใช้ทดแทนฝ้าเพดานอลูมิเนียมระบายอากาศ ใช้เป็นอุปกรณ์ตกแต่งสำหรับเลี้ยงปลาสวยงาม ทำแผงกั้นแบ่งห้องโครงสร้างผนังบ่อตู้ภาชนะเพาะเลี้ยงสัตว์น้ำ กุ้ง กบ ซาลาแมนเดอร์
FRP Products, GFRPS, Glass Fiber Reinforcment Rebar Polymer, Reinforced Fiberglass slab, Composite building materials, vinyl ester resin, Root trunk bollards Tree pit road safety sculpture in decoration, Landscaping Exterior Garden Big tree gratings, Tree Ring Protection Safety Guard Grating Paver Frame Cover Pedestrian, Road Street, molded, pultrusion, pultuded profiles, Covering welded bearing bar compound gratings, Cage Ladders, Staircase treads nosing, non anti slip skid stairways, broad step, tread covers, Handrail, Structural Shaped, Ideal for catwalks, double garage flooring, trench covers, ditch, Safety Expanded Metal Grating, Heavy duty Grip Strut Channel, Perforated Air flow aluminum Grilles, Yard Ramp Edging Pedestal, Carbon serrated bar Steel, spout clad, media support, air mesh, railing, multi grid, covered, concaved, gritted, minimesh, unsaturated polyester resin, Palette Partition Doors Windows, Operation platforms, Explosion proof floor, New idea Innovation design accessories, Components, architectural and industrial decking, Pedestrian Bridges System, courtyards dock threshold, fences, round tube, pipe sheets, angle, wire mesh, pit sump, coating, Polyurethane concrete, Polished, Epoxy self leveling , floor lining, carbon fiber, floor hardener, grouting, waterproof, wastewater treatment, Wet Cooling tower, columns, Laminate, Metallic, Aluminum Composites, Rack, conductor, skylight, polycarbonate, plastic, acrylic, UPVC, ABS, PS, PC, exotic PET, Flat sheets, translucent, Anti-UV stabilized, decorative solid sheets, gutter, ditch, made to order by professional fabricators, Hot Dipped Tinplates Electro forge Galvanized, brass Zinc, supply, Food Grade, weight per m2, spacing dimension, load table cutting, Dealer, Industry, Suppliers, Foundry, Made in China, GMP, HACCP, ISO 1400, 900, FDA Approved, specification price catalogue, for sales Infosoft

Grating Know-How ดูข้อมูลเพิ่มเติม http://www.youtube.com/FRPGratingManhole

 

 ผลิตภัณฑ์ของบริษัทแชนคอน CHANCON PROFILE / product of Shannon Airport.

แชนคอน ผู้ผลิตที่เชี่ยวชาญเฉพาะด้าน ระบบงานฝาตะแกรงระบายน้ำ แผ่นปูพื้นทางเดิน ตะแกรงดักขยะข้างฟุตบาท ตะแกรงขั้นบันได แผ่นพื้นยกระดับน้ำหนักเบา ฝาบ่อชำระล้าง ฝาท่อปิดบ่อพัก แผ่นพื้นในลานผลิตเอนกประสงค์ แผ่นรองปูรอบเครื่องจักร แผ่นทางเดินด้านบนระบบบำบัดน้ำเสียป้องกันการสึกกร่อนจากทั้งสนิมและสารเคมี ประเภทของตะแกรงและฝาบ่อสำเร็จรูป/ Grating Specialist (5 ตะแกรง, 2 ฝาบ่อ) Channel Content producers specialized. Drainage systems grill lid Floor Mat Corridor Sieve waste trap beside a footpath Ladder rack Elevated slabs, lightweight Cover the pond to purify Pipe cap off manholes Utility production slabs in the courtyard The crab pad machines Sheet walkway above the sewage system from rust and corrosion protection chemicals. Cover the grill and ready-made pond / Grating Specialist (5 sieve, cover 2 wells)
1. PP/ABS GRATING ตะแกรงน้ำล้นรอบสระว่ายน้ำ ตะแกรงพลาสติก PP/ABS มี 2 ขนาดมาตรฐานกว้าง 25cm. และ 30 cm. มี 2 เกรดคุณภาพให้เลือกใช้งาน น้ำหนักเบา ไม่เป็นสนิม แต่รับแรงได้น้อยที่สุด ถ้าโดนแดดนานๆ จะมีปัญหากรอบแตกได้ ราคาถูกที่สุด เหมาะสำหรับใช้ในที่ร่ม รอบสระว่ายน้ำ บริเวณที่ไม่มีรถวิ่งผ่าน the PP / GRATING the ABS overflow grate surrounding the pool. Plastic Grid PP / ABS with 2 standard width 25cm. And 30 cm. There are two quality grades for use lightweight, does not rust, but has been minimal. If the sun is up The issue has split the frame Cheapest price Suitable for use indoors Around the pool The area does not have a car ran over
2. PVC/PP/PE Plastic GRATING ตะแกรงพลาสติกสำเร็จรูป ตะแกรงพลาสติก PVC/PP/PE มี 2 ขนาดมาตรฐาน 25x100cm. และ 30x100cm. น้ำหนักเบา รับแรงได้ดีสำหรับให้คนเดินผ่าน ถ้าโดนแดดหรือสารเคมีบ่อยๆ อาจมีปัญหากรอบแตกได้ ราคาถูกกว่าเหล็ก เหมาะสำหรับใช้ในที่ร่ม งานจัดสวน ทางเดินบ่อปลาคาร์ฟ คอนโดมิเนียม หมู่บ้านจัดสรร รอบโรงงาน PVC / PP / PE Plastic GRATING plastic grille finished. Mesh plastic PVC / PP / PE with 2 full size 25x100cm. And 30x100cm. Lightweight been well for a person to walk through. If the sun or chemicals frequently. There may have been framed Cheaper than steel
Suitable for use indoors and gardening aisle Koi Pond Condominium housing around the plant
3. HDG. STEEL GRATING ตะแกรงเหล็กเชื่อมชุบกัลวาไนซ์สำเร็จรูป เป็นตะแกรงเหล็กชุบ Hot Dip Galvanized ผลิตจากเหล็กแผ่น นำมาเชื่อมเข้ากันด้วยระบบ CO2 Robot ทำให้เนื้อเหล็กหลอมกันสนิทกว่าเชื่อมมือ แล้วนำไปชุบ HDG ข้อดีคือรับแรงได้สูงกว่าวัสดุทุกชนิด ส่วนข้อเสียคือเป็นสนิมได้ และมีโอกาสถูกโขมย ขนาดมาตรฐาน 25x100cm. และ 30x100cm. HDG. STEEL GRATING grille welded steel plating Galvanizing’s finished. Steel grating is Hot Dip Galvanized steel sheets. The interface is compatible with CO2 Robot makes the steel melt together more tightly linked hands and then plated HDG advantage of higher strength material. The disadvantage is rusting. And a stolen size 25x100cm. And 30x100cm.
4. FRP GRATING ตะแกรงไฟเบอร์กล๊าสเสริมแรงผสมเรซิ่น “ตะแกรง FRP” ใช้ทดแทน ตะแกรงสแตนเลส/อลูมิเนียม ผลิตจากเส้นใยไฟเบอร์ผสมเรซิ่น น้ำหนักเบา รับแรงได้สูง ทนสารเคมี ไม่เป็นสนิม ทนUV แสงแดด ไม่แตกผุกร่อน ขโมยไม่ต้องการ บำรุงรักษาง่าย อายุการใช้งาน 50-100 ปี เป็นวัสดุทางเลือกใหม่ เลือกสีให้เข้ากับพื้นได้ตามต้องการ แผ่นมาตรฐานขนาดใหญ่ 1.5x4M. เหมาะทำแผ่นพื้นยกระดับ หรือสามารถสั่งได้ทุกขนาดตามที่ลูกค้าต้องการได้ รับประกัน 3-5 ปี GRATING the FRP grating fiber glass-reinforced composite resin “Sieve FRP”. Replace the grill, stainless steel / aluminum. Made from lightweight fiber composite resin has high strength, chemically resistant, rust resistant, UV sunlight does not corrode. Thieves do not want Easy Maintenance The useful life of 50-100 years, is the material of choice. Choose a color to the floor as needed. Standard sheet size 1.5x4M. Suitable elevated slabs.
5. Ductile Side Drain Grating ตะแกรงดักขยะคันหินข้างฟุตบาท วัสดุตะแกรงผลิตจากเหล็กหล่อเหนียว (Casting Ductile Iron) ออกแบบเพื่อใช้เป็น ตะแกรงดักแยกเศษขยะ ดักใบไม้ คันหิน ด้านข้างริมฟุตบาท ตามมาตรฐานเทศบาล กรมโยธาธิการและผังเมือง กรมทางหลวงชนบท และกทม. ขนาดมาตรฐานได้แก่ 10x40cm. 15x30cm., 15x40cm., 20x57cm. และ 25x50cm. Ductile Side Drain Grating Casting Ductile Iron gratings are designed to be used as castings. Grate traps, trash separators, traps, leaves, stones, sidewalks. According to municipal standards Department of Public Works and Town and Country Planning The Department of Rural Roads and BMA, the standard size is 10x40cm. 15x30cm., 15x40cm., 20x57cm. And 25x50cm.
6. Ductile Cast Iron Manhole Cover ฝาปิดท่อเหล็กหล่อเหนียว ผลิตจากวัสดุเหล็กหล่อเหนียว(Ductile Cast Iron) ผลิตตามมาตรฐาน EN124 มีผลทดสอบจากสถาบันรับรองคุณภาพในเมืองไทย เลือกได้หลายเกรดคุณภาพตั้งแต่ 2-40 ตัน มีทั้งรุ่นที่มีบานพับและตัวล็อคป้องกันขโมย ติดตั้งและบำรุงรักษาง่าย ราคาขาย 1 ชุดประกอบด้วยตัวฝาพร้อมเฟรม Ductile Cast Iron Manhole Cover Ductile Cast Iron Manhole Cover Manufactured from ductile cast iron, manufactured in accordance with EN124, tested by the Thai Institute of Quality Assurance. Choose from a variety of grades from 2-40 tons, both with hinges and anti-theft lock. Easy to install and maintain.
7. FRP Manhole Cover ฝาบ่อพักไฟเบอร์เสริมแรงพร้อมเฟรม ผลิตจากวัสดุไฟเบอร์เสริมแรง FRP ได้มาตรฐาน EN124 ไม่เป็นสนิม รับแรงได้เหมือนเหล็กหล่อเหนียว เลือกได้ตั้งแต่ 2-40 ตัน สวยงามเข้ากับธรรมชาติ ไม่เป็นที่นิยมในตลาดรับซื้อของเก่าไม่มีปัญหาโดนขโมย FRP Manhole Cover reinforced fiber reinforced concrete pockets with frame Made from reinforced fiber reinforced FRP material, EN124 is not rusty like a sticky cast iron. Choose from 2-40 tons, beautiful to nature. Not popular in the market to buy antiques are stolen.

GRP / FRP / Fiberglass/ Composite for Grating and Manhole Covers

วัสดุเทคโนโลยีใหม่ กรรมวิธีขั้นตอนผลิตจากเส้นใยไฟเบอร์ผสมเรซิ่น น้ำหนักเบา รับแรงได้สูงกว่าเหล็กหล่อ ไม่เป็นสนิม ไม่แตกผุกร่อน ขโมยไม่ต้องการ ฝาปิดได้สนิท ป้องกันกลิ่นได้ดี เลือกสีให้เข้ากับพื้นผิวได้ตามต้องการ ถูกออกแบบสำหรับ Materials technology Step process of manufacturing fiber composite resins have been lighter than cast iron, rust does not corrode. Thieves do not want to cover it completely prevent smells good. Choose a color to match the surface as needed. Designed for

คุณสมบัติ ตะแกรง FRP (Fiberglass+Resin) .vs. Steel .vs. Plastic (PE/ABS/PVC)

1. ไม่เป็นสนิม ไม่ผุกร่อน ไม่กรอบแตก ทนความร้อนและแสง UV ทนการกัดกร่อนจากสารเคมี เช่นโซดาไฟ, Borax, กรดซัลฟูริก ฯลฯ สามารถตรวจสอบอุณหภูมิและสารเคมีที่ทนได้จากตารางผลการทดสอบ No rust corrosion frame are resistant to heat and UV light resistant to corrosion from chemicals such as caustic soda, Borax, sulfuric acid, etc., can monitor temperature and chemical resistant table test
2. อายุการใช้งาน มากกว่า 30 ปี ขึ้นอยู่กับลักษณะการใช้งาน เช่น ความถี่ของการสัมผัสสารเคมี ใกล้ทะเล หรือใช้งานในที่มีอุณหภูมิสูง (ทำอย่างไรจึงจะสามารถแก้ปัญหาสนิม ผุกร่อน การกัดกร่อนเหล็ก ได้อย่างมีประสิทธิภาพ)  the lifetime of over 30 years, depending on usage, eg frequency of exposure to chemicals near the sea or in high temperatures. (How to solve the problem of corrosion of iron rust. Effectively)
3. เสริมคุณค่าโรงงาน สามารถเลือกสีให้เข้ากับสภาพแวดล้อม หรือทำเป็นเขต Safety Zone โดยใช้สีให้สะดุดตาได้ เช่น เหลือง,ฟ้า,เทา,ดำ เขียว ฯลฯ Insulation Material: เป็นฉนวน ไม่นำไฟฟ้า ไม่เป็นสื่อล่อฟ้า ป้องกันไฟฟ้าดูด enrichment plant. Choose a color to match its surroundings. Or as the Safety Zone, notably by using color such as yellow, blue, gray, black, green, etc. Insulation Material: non-conductive dielectric media is not lightning. Prevent electrical shock
4. น้ำหนักเบากว่าเหล็ก แต่รับแรงได้สูงเหมือนเหล็กทั่วไป จึงทำให้การเคลื่อนย้าย ติดตั้ง และบำรุงรักษาเร็วและง่ายขึ้น lighter than steel. But unlike high-strength steel. As a result of moving, installation and maintenance quicker and easier
5. ราคาใกล้เคียงกับเหล็กหล่อ สูงกว่าเหล็กชุบกัลวาไนซ์ แต่ FRP ไม่มีปัญหาโดนขโมย เนื่องจารขายไม่ได้ในตลาดรับซื้อของเก่า ไม่เป็นสนิม ไม่กรอบแตกจากแสงแดดรังสี UV เหนียวทนรับแรงได้เหมือนเหล็ก น้ำหนักเบา ตัดให้เข้ารูปได้ The price of cast iron Higher steel Galvanizing FRP’s, but not stolen.
The law does not sell in the market get old does not corrode the crack of sunlight, UV resistant cohesive strength lightweight steel cut to fit like a
6. เนื้อผิวไฟเบอร์มีความละเอียดสูง ปิดได้สนิทแน่น เสมือนมีซีลยางในตัว ป้องกันกลิ่นได้ดี ไม่มีปัญหาโก่งงอ เงียบสนิทเมื่อรถวิ่งผ่านด้านบนผิว เป็นฉนวน(ไม่นำไฟฟ้า) ทนความร้อนและแสง UV ไม่กรอบแตกเหมือนพลาสติก ABS, PVC, แผ่น poly fiber, high-resolution textures. Turned off completely tight A rubber seal on the virtual Defense, smell good No buckling Silent when the car ran over the top surface. Dielectric (non-conductive) resistant to heat and UV light plastic frame cracked like ABS, PVC, sheet The poly
7. สต๊อคมากกว่า 5,000 ตรม. เลือกสีได้ ผลิตหรือสั่งตัดได้ทุกขนาด แผ่นใหญ่สุดขนาด 1.5×4 เมตร พร้อมส่งได้ทันที stockpile of more than 5,000 sqm. Choose a color or cut of all sizes. Largest sheet size 1.5×4 meters Immediately
8. นำเข้าจากยุโรป ซึ่งมีคุณภาพเป็นที่ยอมรับในตลาดสากล มาตรฐาน EN124 พร้อมรับประกันคุณภาพ 2-5 ปี ขึ้นอยู่กับรุ่นและแบบ กรณีมีปัญหาเปลี่ยนใหม่ให้ทันที  imported from Europe. This quality is recognized in the international market with EN124 standard warranty for 2-5 years, depending on the model and type. The case has now replaced
FRP Features: 
• Light weight, higher strength, easily installation and repaired work, cut and drilled on site
• Corrosion and weather resistant (UV resistant), Resistant to most chemicals
• Do not conduct heat or electricity also protects the cables (High temperature resistant)
• Gives added fire protection to the cables in case of external fire (Self extinguishable)
CHANCON: Distributor and Manufacturer from direct factory. The majority of our products excel in value added engineering/architectural design for FRP products. บริษัทแชนคอน ผลิตและจำหน่าย FRP Grating, ตะแกรงรางระบายน้ำ, ตะแกรงทางเดิน โดยเฉพาะวัสดุไฟเบอร์ (FRP) เพื่อทดแทนงานโลหะ เหล็ก สแตนเลส อลูมิเนียม ทองเหลือง ทองแดง เหล็กหล่อเหนียว เหล็กเกรด ทองเหลือง ชุบซิงค์ ชุบกัลวาไนซ์ สำหรับงานก่อสร้าง ห้องเย็น, คอกปศุสัตว์, ฟาร์มหมู เป็ด ไก่, กรงนก สุนัข, อุโมงค์, เขื่อน ท่าเทียบเรือ สะพานข้ามแม่น้ำ ทางยกระดับ กรมทางหลวงชนบท ทางด่วน การไฟฟ้า องค์การโทรศัพท์ โครงสร้าง กำแพง หน้าผา ภูเขา สนามบิน ตึกสูง สถาปัตยกรรม สิ่งก่อสร้างขนาดใหญ่ Cable laying in chemical and purification plants, Refineries, offshore plants, Oil & Gas sector, Tunnels
Head office | ขายส่ง ขายปลีก ต้องการตัวแทนจำหน่าย | รับสมัคร Sales Representative, Dealer, Agent, Distributor
CHANCON COMPANY LIMITED www.chancon.co.th (ฝั่งตรงข้ามเซ็นทรัลพระราม2 ซอยท่าข้าม 28/2) บางขุนเทียน กรุงเทพมหานคร ประเทศไทย Bangkok Thailand #Grating Line: 081 9327894 Tel: 02 4510780-1, Fax: 02 4510786 E-mail: mkt@chancon.co.th
FaceBook: www.facebook.com/GratingThai , www.facebook.com/FrpFiberGrating.chancon , www.facebook.com/FrpGrating.ManholeCover
Youtube: http://www.youtube.com/mktchancon , http://www.youtube.com/FRPGratingFiberglass , http://www.youtube.com/FRPGratingManhole |
Grating Know-How: www.GratingThai.com , http://ตะแกรงไฟเบอร์กลาส-ฝาบ่อเหล็กฝาท่อ.com | http://FrpGratingThai.blogspot.com , http://hotdipgalvanized-steelgrating.blogspot.com , http://ChanconFiberGrating.wordpress.com | Twitter: https://twitter.com/GratingThai
ตะแกรงไฟเบอร์กล๊าส frp grating

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Vietnam Language

 

Các tính chất của sợi thủy tinh được tăng cường sợi thủy tinh GFRP Vinyl Resin Thực phẩm Grade.

sợi thủy tinh Definition | sợi thủy tinh là gì.

Các sản phẩm của chúng tôi bao gồm các sản phẩm bằng nhựa thủy tinh hoặc nhựa thủy tinh được bổ sung bằng nhựa thủy tinh hoặc nhựa thủy tinh bổ sung. Glass “có mùi thơm nhẹ nhưng vẫn giữ được độ ẩm cao khi sử dụng sản phẩm này. Chúng ta sẽ chọn loại nhựa của sản phẩm Đây là loại sản phẩm nhựa được sản xuất trong khuôn mẫu của nhà sản xuất với công thức thúc đẩy Sẽ xảy ra các phản ứng hóa học với nhiệt độ cao hơn 100 ° C. Sau đó sẽ được thay thế bằng nhựa cứng và sẽ không phục hồi lại hình dạng của Thermoseting để
tạo ra sản phẩm bổ sung bằng cách sử dụng các công cụ tạo khuôn cho sản phẩm. Hay FRP Các sản
phẩm của chúng tôi được sản xuất bởi các sản phẩm của chúng tôi. Tiếp theo tương tự như với đường dây (hình 1) có thể đưa ra một tấm vải sợi thủy tinh (hình 2). ใช้ ใน ด้าน อุตสาหกรรม เช่น ทำเป็น ผ้า ม่าน กัน สะเก็ด ไฟ ส่วน เส้นใยแก้ว อีก ประเภท หนึ่ง จะ เป็น เส้นใย ที่ สั้น ไม่ ต่อ เนื่อง มัก นำ มา ใช้ ทำเป็น ฉนวน กัน ความ ร้อน และ ฉนวน กัน เสียง ซึ่ง มี ลักษณะ เป็น แผ่น หนา นุ่ม (ดัง รูป 3)
♦ Đường dây chuyền sản xuất bao gồm là mùn cát (silica sand) dùng làm chất tạo soda ash và đá vôi. (Feldspar) Mỡ răng (alumina nâu) Nấm mốc (nepheline syenite) và đất đai kẹo mốc (nepheline syenite) (Đất sét cao lanh)

Định nghĩa nhựa polyester
bất kỳ của vari Ous nhựa tổng hợp hoặc plastic bao gồm hoặc được làm từ polyeste: như nhựa có cùng thành phần hóa học như sợi polyester thông thường nhưng được ép thành màng (như sử dụng trong bao bì, cách điện, hoặc làm cơ sở cho Băng từ ghi âm) c: nhựa nhiệt cứng được làm từ polyester không bão hoà (được tạo thành từ glycol và axit maleic hoặc axit fumaric), được xử lý bằng copolymerization (như với styrene) và thường được gia cố với chất làm đầy (như sợi thủy tinh) Và được sử dụng chủ yếu để ngâm tẩm và cán mỏng và trong sản xuất đúc và khuôn đúc

Đối với vật liệu cách nhiệt đôi khi được gọi là sợi thủy tinh, xem len thủy tinh. Đối với sợi thủy tinh chính nó, đôi khi còn được gọi là sợi thủy tinh, xem sợi thủy tinh. Đối với các vật liệu composite tương tự, trong đó sợi gia cố là các sợi cacbon, xem polyme tăng cường sợi cacbon. Sợi thủy tinh (hoặc sợi thủy tinh) là một loại chất dẻo được gia cố bằng chất dẻo, trong đó sợi gia cố là sợi thủy tinh đặc biệt. Sợi thủy tinh có thể được sắp xếp ngẫu nhiên, làm phẳng thành một tấm (được gọi là miếng xơ cắt nhỏ), hoặc được dệt thành vải. Ma trận nhựa có thể là nhựa nhiệt dẻo – thường là nhựa epoxy, nhựa polyester – hoặc vinylester, hoặc chất dẻo nóng.
Các sợi thủy tinh được làm bằng các loại thủy tinh tùy thuộc vào việc sử dụng sợi thủy tinh. Các loại kính này đều có chứa silica hoặc silicat, với lượng oxi canxi, magiê và boron đôi khi. Để được sử dụng trong sợi thủy tinh, sợi thủy tinh phải được thực hiện với mức độ khiếm khuyết rất thấp.
Sợi thủy tinh là chất liệu nhẹ và được sử dụng cho nhiều sản phẩm. Mặc dù không cứng và cứng như các vật liệu composite dựa trên sợi cacbon, nó ít giòn, nguyên liệu thô rẻ hơn nhiều. Trọng lượng và trọng lượng của nó cũng tốt hơn nhiều kim loại, và nó có thể được dễ dàng đúc thành các hình dạng phức tạp. Các ứng dụng của sợi thủy tinh bao gồm máy bay, thuyền, ô tô, bồn tắm và thùng loa, bể bơi, bồn nước nóng, bể phốt, bể chứa nước, lợp mái, đường ống, lớp phủ, phôi, ván lướt ván và cửa ngoài.
Một số người biết rằng “lửa băng laze” là một phần của một loại xe ô tô hoặc xe máy khác mà là “sợi thủy tinh” có nghĩa là “Đường dây nóng” Tài liệu Bổ sung sức mạnh cho nhựa tái tạo và hình dạng các sản phẩm khác nhau như mái vòm Xe mô hình các phần tử nhỏ của ô tô Sản phẩm Bộ dụng cụ bổ sung (Glass Reinforced Concrete, GRC) Mô hình Khung kính Kính cường lực cao (Glass Reinforced Concrete, GRC) Là một sản phẩm được làm bằng vải và các bộ phận khác của sản phẩm. The joint of the skin are made well done the fires of the top of the bathroom to be a supplements with the best work with the Chesters in the Parkers with the Herb ผล เสีย จาก เกิด น้ำ
เส้นใยแก้ว มี ขนาด และ ความ ยาว หลากหลาย ขนาด เส้นใย อาจ ยาว เหมือน เส้นด้าย ยาว มาก ไป จนถึง เส้นใย ที่ สั้น มาก จน มอง ด้วย ตา เปล่า ไม่ เห็น เส้นใยแก้ว ผลิต จาก ส่วน ประ ก Các sản phẩm của chúng tôi được cung cấp bởi các nhà sản xuất và các nhà sản xuất khác nhau. Filtry cho phòng tắm Giầy dép là nước hoa mới ra đời sau này sẽ bám vào đường đi của các sợi dệt bằng sợi bông W รีด và chạy bằng tốc độ cao hơn so với các loại kính áp tròng được sản xuất từ ​​các sản phẩm đá thải đầu tiên trong khi các sợi lá có đường kính nhỏ hơn so với các sợi mảnh trước đó thường được sử dụng làm vải If you want to fill the wire, you will be cut with the force that are the force that are the given that that that are the same day that are the same day. ณ ห ภูมิ และ ไฟ
“ไฟเบอร์ กลา ส”ใน ภาษา ของ วัสดุ เสริม แรง ที่ รู้จัก ทั่วไป ใน การ ทำ หลังคา รถ กระบะ หรือ ชิ้น ส่วน ที่ ต้องการ ความ แข็งแรง นั้น ผลิต จาก การนำ ชิ้น ส่วน ต้นแบบ มา ขัด ผิว ด้าน นอก ด้วย ขี้ผึ้ง ถอด แบบ วาง ผ้า Xơ dừa trên khuôn mặt của trẻ sơ sinh với da có sưng tấy Làm cứng tóc theo yêu cầu Khi sử dụng lại da và lấy ra phần da cá Bạn nên thực hiện việc tạo ra phần tử da liễu bằng cách sử dụng Phương pháp này sẽ không còn nhiều chi tiết và các phần mềm giải quyết các vấn đề về cách sử dụng các phần mô tả khuôn mặt cho các phần của con số. Hình mẫu của chiếc máy tính trước khi được tạo ra bởi các hãng sản xuất và khách hàng Hãy tạo ra những chiếc máy tính cá nhân mà họ cần đến ั บ ต้นแบบ ทุก ประการ และ สามารถ เสริม ความ แข็งแรง ใน บริเวณ ที่ ต้องการ โดย เพิ่ม ความ หนา ของ ใย แก้ว หลาย ๆ ชั้น
ไฟเบอร์ กลา ส ผลิต ขึ้น จาก สาร เคมี และ วัสดุ หลาย ชนิด ซึ่ง เป็น อันตราย ต่อ สุขภาพ เช่น ดวงตา ผิวหนัง ระบบ ทาง เดิน หายใจ ดังนั้น จึง Các
sợi thủy tinh được sản xuất từ ​​nhiều thế kỷ, nhưng sản lượng sợi thủy tinh đã vô tình được phát hiện vào năm 1932 khi Games Slayter, một nhà nghiên cứu tại Owens-Illinois, Cted một máy bay nén khí tại một luồng thủy tinh nóng chảy và sản xuất sợi. Bằng sáng chế cho phương pháp sản xuất len ​​thủy tinh này lần đầu tiên được áp dụng vào năm 1933.Lúc hợp tác với công ty Corning vào năm 1935 và phương pháp này đã được Owens Corning điều chỉnh để sản xuất sợi “sợi” (“một sợi”) đã được cấp bằng sáng chế vào năm 1936. Ban đầu, Sợi sợi là một sợi thủy tinh với các sợi thu được rất nhiều khí, làm cho nó trở nên hữu ích như chất cách điện, đặc biệt là ở nhiệt độ cao.
Một loại nhựa phù hợp để kết hợp “sợi thủy tinh” với một chất dẻo để tạo ra vật liệu composite đã được phát triển vào năm 1936 bởi du Pont. Tổ tiên đầu tiên của nhựa polyester hiện đại là nhựa Cyanamid năm 1942. Các hệ thống xử lý Peroxide đã được sử dụng sau đó. Với sự kết hợp của sợi thủy tinh và nhựa, lượng khí của vật liệu được thay bằng nhựa. Điều này làm giảm các tính chất cách nhiệt các giá trị điển hình của nhựa, nhưng bây giờ lần đầu tiên hợp chất cho thấy sức mạnh tuyệt vời và hứa hẹn như một vật liệu xây dựng và xây dựng. Nhầm lẫn, nhiều vật liệu sợi thủy tinh tiếp tục được gọi là “sợi thủy tinh” (tên gọi chung) và tên cũng được sử dụng cho sản phẩm len thủy tinh có mật độ thấp có chứa khí thay vì nhựa.
Ray Greene của Owens Corning được cho là đã sản xuất chiếc thuyền composite đầu tiên vào năm 1937, nhưng không tiến hành thêm vào thời điểm đó do tính chất giòn của nhựa được sử dụng. Vào năm 1939, Nga đã cho biết đã chế tạo một chiếc thuyền chở khách bằng chất dẻo, và Hoa Kỳ có thân máy bay và cánh máy bay. Chiếc xe đầu tiên có thân bằng sợi thủy tinh là nguyên mẫu năm 1946 của Stout Scarab, nhưng mô hình này đã không được sản xuất.
Các tên phổ biến khác của sợi thủy tinh là nhựa dẻo thủy tinh (GRP), [1] bằng nhựa thủy tinh bằng sợi thủy tinh (GFRP) [2] hoặc GFK (tiếng Đức: Glasfaserverst? Rkter Kunststoff). Bởi vì sợi thủy tinh chính nó đôi khi được gọi là “sợi thủy tinh”, composite còn được gọi là “nhựa thủy tinh bằng sợi thủy tinh”. Bài báo này sẽ thông qua quy ước rằng “sợi thủy tinh” dùng để chỉ vật liệu composite được gia cố bằng sợi thủy tinh, chứ không chỉ là sợi thủy tinh bên trong nó.

Tất cả các sản phẩm của chúng tôi đều được sản xuất từ ​​nhiệt độ cao và có độ bền cao. ใย แก้ว ที่ ถูก อัด ออก มา จาก ผิว ที่ หย่อน คล้อย ขณะ ที่ เส้นใย ที่ หด ตัว ได้ รับ เส้นใย ขนาด เล็ก ก่อน การ แข็งตัว ย สั้น ก็ ทำได้ โดย การ ตัด ด้วย แรง ลม สามารถ ทำให้ เส้นใย มี ความ ยาว แตก ต่าง กัน ออก ไป
อย่างไรก็ตาม ใน ขั้น ตอน การ หลอม ถ้า หาก ไม่มี การ ควบคุม คุณภาพ ของ ส่วนผสม ให้ บริสุทธิ์ แล้ว ก็ จำเป็น ต้อง หลอม และ ทำ น้ำ แก้ว ให้ เป็น ลูกแก้ว ก่อน Filtering the blanking of a glass of tea as well as the new glass but aequality of a new age but if you have the control of the quality of all the colourful and well. เลย
ส่วน “ไฟเบอร์ กลา ส” ใน ความ หมาย ของ วัสดุ เสริม แรง นั้น ผลิต ได้ สอง วิธี คือ วิธี แรก นำ ชิ้น ส่วน ต้นแบบ มา ขัด ผิว ด้าน นอก ด้วย ขี้ผึ้ง ถอด แบบ วาง ผ้า ใย แก้ว บน ชิ้น ส่วน ต้นแบบ ทา ด้วย เรซิน ที่ ผสม ตัว ทำให้ Giữ cho bộ kiểm tra theo yêu cầu khi đã thực hiện tái tạo và lấy phần tử tia lửa ra khỏi phần uốn dẻo Thử rửa bề mặt da bên ngoài cho cho việc tạo ra một phần của máy phát điện bằng lò vi sóng Đây là loại bỏ các chi tiết và kiểu dáng Hai cách sử dụng phần mềm Các phần mềm sẽ làm cho phần mềm của bạn nhiều hơn nhưng có một trình duyệt Tốc độ Bắt đầu bằng cách sử dụng chúng ta phải tạo ra phần mở rộng từ phần tử đầu tiên của mẫu khi được thiết kế And then Dojo tạo ra các phần tử linh tinh Các phần cần thiết để tạo ra các bức ảnh có độ sắc nét cao và có thể bổ sung บริเวณ ที่ ต้องการ โดย เพิ่ม ความ หนา ของ ใย แก้ว หลาย ๆ ชั้น
Quá trình sợi thủy tinh sản xuất được gọi là pultrusion. [Cần dẫn nguồn] Các quá trình sản xuất cho sợi thủy tinh thích hợp cho tăng cường sử dụng lò lớn để dần dần tan chảy cát silica, đá vôi, cao lanh đất sét, Fluorspar, colemanit, dolomite và các khoáng chất khác dạng lỏng. Sau đó nó được đùn bởi các ống lót, đó là các bó lỗ nhỏ (thường là 5-25 micrometres đường kính cho E-Glass, 9 micrometres cho S-Glass). Những sợi này sau đó được bao phủ bởi một dung dịch hóa học. Các sợi filament riêng lẻ được đóng gói với số lượng lớn để tạo ra sự lưu thông. Đường kính của sợi filament, và số sợi filament trong chu kỳ, xác định trọng lượng của nó, thường được biểu diễn bằng một trong hai hệ thống đo lường: năng suất, hoặc bãi / pound (số yard của chất xơ trong một pound vật liệu, do đó nhỏ hơn Số có nghĩa là một sự lưu thông nặng hơn). Ví dụ về năng suất tiêu chuẩn là 225yield, 450yield, 675yield. Tex, hoặc gram trên một km (bao nhiêu gram trọng lượng di chuyển 1 km, đảo ngược từ năng suất, do đó một số nhỏ hơn có nghĩa là một sự lưu thông nhẹ hơn). Ví dụ về tex chuẩn là 750xtex, 1100xe, 2200xex.
Những rovings này sau đó được sử dụng trực tiếp trong một ứng dụng tổng hợp như pultrusion, cuộn dây tóc, cuộn súng (trong đó một khẩu súng tự động chops thủy tinh thành các đoạn ngắn và thả nó vào một chiếc phản lực của nhựa, được chiếu lên bề mặt khuôn ), Hoặc trong một bước trung gian, để sản xuất các loại vải như xơ dăm (CSM) (dệt từ sợi nhỏ có định hướng ngẫu nhiên với nhau), vải dệt thoi, vải dệt kim hoặc vải đơn hướng. Miếng sợi
xẻm Xẻm sợi hoặc CSM là một dạng gia cố được sử dụng trong sợi thủy tinh. Nó bao gồm các sợi thủy tinh được xếp ngẫu nhiên vào nhau và được giữ lại với nhau bằng một chất kết dính.
Nó thường được xử lý bằng cách sử dụng kỹ thuật lay-up tay, nơi các tấm vật liệu được đặt trong một khuôn và chải bằng nhựa. Bởi vì chất kết dính tan trong nhựa, vật liệu dễ dàng phù hợp với hình dạng khác nhau khi bị ướt. Sau khi chữa bệnh nhựa, sản phẩm cứng có thể được lấy từ khuôn và hoàn thành. Sử dụng miếng xẻ sợi cho một sợi thủy tinh với tính chất vật liệu đẳng hướng đẳng hướng.

1. Độ bền chống ăn mòn: Không phải là rỏ ràng và chịu ảnh hưởng của việc ăn mòn
2. Độ bền nhiệt độ: Sản phẩm có thể chịu được nhiệt độ từ -30 đến +120 tùy thuộc vào kích cỡ của dụng
3. Trọng lượng nhẹ : น้ำหนัก เบา ประหยัด ค่า ก่อสร้าง ด้วย น้ำหนัก ที่ เบา กว่า เหล็ก ถึง 4 เท่า ทำให้ สะดวก ต่อ การ ยก ประกอบ และ ติด ตั้ง ช่วย ประหยัด ค่า ใช้ จ่าย
4. Flextural Strength: โครงสร้าง แข็งแรง ให้ ตัว ได้ ป้องกัน การ รั่ว ซึม หรือ ร้าว
5. Lo ng dài: ไม่ เน่า เปื่อย หรือ ผุ กร่อน ทน ทุก สภาวะ สิ่งแวดล้อม คง รูป เดิม ได้ ดี ไม่มี การ หด
6. Hệ số ma sát thấp: ผิว เรียบ เนียน ทำให้ แรง เสียด ทาน ต่ำ
7. Cách điện: เป็น ฉนวน ไฟฟ้า และ ไม่ นำ ความ ร้อน
8 . Sửa chữa: ใน กรณี สุดวิสัย เมื่อ เกิด การ ชำรุด เสียหาย สามารถ ซ่อม ได้
9. Thiết kế kỹ thuật: การ ออกแบบ และ คำนวณ ตาม มาตรฐาน ของ ASTM, JIS, BS และ DIN
10 UV-kháng và Grossy: สี สวย สดใส ทน ต่อ แสงแดด และ แสง ยู Vĩ
An Một sợi thủy tinh kết cấu riêng lẻ có độ bền và căng thẳng cao, nghĩa là dọc theo trục của nó. Mặc dù nó có thể được giả định rằng chất xơ là yếu trong nén, nó thực sự chỉ là tỷ lệ dài của chất xơ mà làm cho nó có vẻ như vậy, Nghĩa là, bởi vì một sợi điển hình dài và hẹp, nó dễ dàng bị khóa. [7] Mặt khác, sợi thủy tinh là yếu trong cắt – nghĩa là, qua trục của nó. Do đó, nếu một bộ sưu tập các sợi có thể được bố trí vĩnh viễn ở một hướng thuận lợi trong vật liệu, và nếu chúng có thể được ngăn chặn từ khóa nén, vật liệu sẽ được ưa thích mạnh mẽ theo hướng đó.
Hơn nữa, bằng cách đặt nhiều lớp chất xơ lên ​​nhau, với mỗi lớp định hướng theo nhiều hướng khác nhau, độ cứng và độ cứng tổng thể của vật liệu có thể được kiểm soát hiệu quả. Trong sợi thủy tinh, nó là ma trận nhựa cố định vĩnh viễn các sợi thủy tinh kết cấu theo hướng được nhà thiết kế lựa chọn. Với tấm xẻ sợi, hướng này chủ yếu là một mặt phẳng hai chiều; Với vải dệt thoi hoặc các lớp đơn hướng, hướng độ cứng và cường độ có thể được kiểm soát chính xác hơn trong mặt phẳng.
Một thành phần sợi thủy tinh thường có cấu trúc “vỏ” mỏng, thỉnh thoảng được đổ đầy bên trong với bọt kết cấu, như trong trường hợp của ván lướt sóng. Thành phần có thể có hình dạng gần như tùy ý, giới hạn bởi sự phức tạp và dung sai của khuôn được sử dụng để sản xuất vỏ.
Chức năng cơ học của vật liệu được dựa nhiều vào kết hợp của cả nhựa (ma trận AKA) và sợi. Ví dụ, trong điều kiện nhiệt độ nghiêm trọng (trên 180 ° C), thành phần nhựa của composite có thể bị mất đi chức năng của một phần do sự ăn mòn của nhựa và chất xơ [8]. Tuy nhiên, GFRPs có thể cho thấy sức bền dư thừa đáng kể sau khi trải qua nhiệt độ cao (200 ° C).

Lưới sợi thủy tinh đúc sẵn của chúng tôi và lưới sợi thủy tinh pultruded cung cấp khả năng chống ăn mòn chưa từng có, đặc biệt là khi so sánh với các sản phẩm ván sàn bằng thép. Độ bền, tuổi thọ cao và an toàn cũng là những phẩm chất vượt trội của sản phẩm lưới sợi thủy tinh của chúng tôi, và tính năng không dẫn điện của chúng làm cho chúng trở thành lựa chọn lý tưởng cho sàn nhà lưới. Chúng tôi cung cấp nhiều loại lưới sợi thủy tinh cho tất cả các ứng dụng tải khác nhau của bạn. Các ứng dụng rèn bằng sợi thủy tinh bao gồm từ việc kiểm tra ánh nắng mặt trời kiến ​​trúc và ván sợi thủy tinh đến lối đi tiêu chuẩn và các ứng dụng cán lăn cao. Các bề mặt mài và màu sắc cổ phiếu tiêu chuẩn hoặc màu sắc tùy chỉnh được cung cấp cho phù hợp với ứng dụng sợi thủy tinh của bạn. Chọn từ các loại nhựa tùy chỉnh của chúng tôi cho một sản phẩm sàn sợi thủy tinh được thiết kế riêng cho phù hợp với nhu cầu chống ăn mòn của bạn.

Lưới sợi thủy tinh đúc khuôn là loại nhựa gia cường bằng sợi thủy tinh (FRP) kết hợp các sợi rèn bằng sợi thủy tinh với nhựa nhiệt dẻo để tạo thành một tấm đúc bằng một mảnh. Tỷ trọng 65% / 35% nhựa cho trọng lượng thủy tinh cung cấp khả năng chống ăn mòn cao. Mặt sàn lát hoặc bề mặt cát được sử dụng có tính chống trượt khi so sánh với sàn bằng thép và các sản phẩm ván sàn khác. Sản phẩm lưới sợi này phù hợp hơn cho môi trường ăn mòn. Pultruded Pudruded Fiberglass Grating
Lưới sợi thủy tinh Pultruded được làm bằng polyester polyphosphat đẳng cấp, vinyl este hoặc các hệ thống nhựa phenolic với một tấm che mặt nạ tổng hợp, làm cho nó chống ăn mòn, nhẹ và bền. Chất liệu sợi thủy tinh nung có bề mặt sét cho độ an toàn và có tỷ trọng lớn hơn so với lưới bằng sợi thủy tinh đúc. Tỷ lệ nhựa 35% / 65% đến thủy tinh cung cấp sức mạnh lớn hơn và chống ăn mòn ít hơn lưới lưới sợi khuôn. Sản phẩm này phù hợp hơn với các sợi thủy tinh dài hơn.
Sàn lưới bằng sợi thủy tinh Sàn lưới bằng sợi thủy tinh của chúng tôi là sản phẩm ván sàn sợi thủy tinh dài, kết hợp mịn, gritted hoặc kiểm tra tấm và đúc khuôn được sản xuất với bất kỳ hệ thống nhựa của chúng tôi. Đó là sự lựa chọn lý tưởng khi sàn nhà lưới phải được phủ 100%. Vải phủ bằng sợi thủy tinh của chúng tôi thường được sử dụng trong các khu vực bốc xếp và lưu thông xe cộ cao, nơi có bề mặt chắc chắn và chắc chắn. Nó cung cấp giá trị độ cứng xấp xỉ cao hơn khoảng 50% so với lưới lưới mở và lưới phủ chuẩn của nó đảm bảo an toàn.
Bullet Resistant Fiberglass Plate Đĩa sợi thủy tinh chống đạn của chúng tôi mang lại khả năng chịu lực đạn đạo cao hơn với trọng lượng dưới 25% so với tấm thép tương đương. Bây giờ đã có sẵn cho các ứng dụng sợi thủy tinh thương mại cho doanh nghiệp của bạn, nhà hoặc cơ sở chính phủ, các tấm sợi thủy tinh cung cấp an toàn chống lại đạn đạo với các lợi thế bổ sung hiệu suất của độ bền, chống ăn mòn, không dẫn điện, dẫn nhiệt thấp và trọng lượng nhẹ.
Fiberglass Heavy Duty Sàn lưới sợi thủy tinh nặng của chúng tôi lưới có sẵn trong cả hai hệ thống lưới đúc và pultruded. Cả hai loại lưới sợi thủy tinh nặng được thiết kế để vận chuyển xe nâng và xe tải kéo mà FRP sản phẩm đúc khuôn truyền thống và pultruded không được thiết kế để hỗ trợ. Lưới sợi thủy tinh có độ bền cao cung cấp độ bền cao hơn cho các khu vực lưu lượng cao hơn. Ngoài ra, Grating sợi thủy tinh nặng Grating có thể được sử dụng để giải phóng khoảng cách xa hơn lưới sợi thủy tinh truyền thống.
Cầu thang bằng sợi thủy tinh và cầu thang bằng sợi thủy tinh Lốp nhẹ và dễ dàng lắp đặt, thang bậc bằng sợi thủy tinh có sẵn trong cả hai loại đúc và pultruded để phù hợp với sàn nền bằng sợi thủy tinh. Bao gồm tấm lót bằng sợi thủy tinh được làm từ thủy tinh khuôn và hệ thống nhựa có tính chống ăn mòn và chống va đập, chống cháy và không dẫn điện. Chúng cung cấp một bề mặt bảo vệ chống trượt hiệu quả, chống trượt cho các bước bê tông, kim loại và gỗ.
Cầu thang bằng sợi thủy tinh Tay vịn và sợi thủy tinh Cầu thang bằng sợi thủy tinh Tay vịn và Thang sợi thủy tinh Hệ thống lan can bằng sợi thủy tinh được chế tạo từ các thành phần sợi thủy tinh và các đầu nối nhiệt dẻo. Hệ thống lan can bằng sợi thủy tinh modul của chúng tôi có sẵn trong cấu hình tròn 2 inch hoặc 2 inch có thể dễ dàng nắm bắt, làm cho chúng lý tưởng cho bất kỳ khu vực lưu lượng truy cập cao. Thang máy và lồng bằng sợi thủy tinh của chúng tôi có thể được lắp đặt trong nhiều ứng dụng từ bơm chìm đến bể, tòa nhà, cầu cảng, thiết bị di động, vv, cung cấp nhiều năm sức mạnh và sự tin cậy.
Sợi thủy tinh đính kèm và sợi thủy tinh Clips cáp sợi thủy tinh của chúng tôi đính kèm tập tin và clip được thiết kế đặc biệt để đảm bảo lưới sợi hoặc tấm để các cấu trúc hỗ trợ. Thêm vào đó, chúng được sử dụng để gắn chặt các tấm lưới tiếp giáp, làm giảm tối thiểu sự lệch lệch gây ra tải. Tất cả các phụ kiện và chốt bằng sợi thủy tinh đều được làm bằng thép không rỉ kiểu Type 316 và có các kích cỡ từ 1, 1-1 / 2 và 2-inch.
Các tấm sợi thủy tinh có mặt không dẫn điện làm cho chúng trở thành một giải pháp kinh tế và an toàn cho các bề mặt đi bộ. Trong điều kiện ăn mòn và / hoặc axít, các tấm sợi thủy tinh cung cấp độ chống ăn mòn không sánh được và tiết kiệm chi phí hơn so với thép không gỉ. Tấm thủy tinh có sẵn với bề mặt không nghiền hoặc với bề mặt đá có cần kéo trượt chống trượt.
Kiểu dáng kết cấu bằng sợi thủy tinh Hình dạng cấu trúc bằng sợi thủy tinh và hồ sơ sợi thủy tinh pultruded của chúng tôi được làm từ hỗn hợp sợi thủy tinh và các hệ thống nhựa nhiệt. Tất cả các hình dạng đều nhẹ, chống va đập, bảo trì thấp, không từ tính, dẫn điện thấp và có độ ổn định về chiều, giúp dễ lắp đặt và lý tưởng cho nhiều ứng dụng. Hình dạng tùy chỉnh được cung cấp theo yêu cầu.

Composite (GFRP) Gratings: GFRP là gì (sợi thủy tinh gia cố bằng nhựa)? GFRP là vật liệu composite được làm bằng một ma trận polymer được gia cường với chất xơ, nhằm tạo ra các đặc tính lý hoá và tốt hơn. GFRP là một vật liệu sản xuất như kim loại, gỗ, thủy tinh, bê tông. Vật liệu GFRP có những thuận lợi quan trọng so với các vật liệu sản xuất khác, có thể thu được các tính năng mới theo yêu cầu. Lưới GFRP là gì? Gated khuôn GFRP được sản xuất trong khuôn đặc biệt với quy trình cán ướt, bao gồm sợi thủy tinh, nhựa, phụ gia và sắc tố. Sau khi các nguyên liệu này cứng lại, lưới GFRP được ép ra khỏi khuôn. Đúc bằng khuôn GFRP nhẹ, chống ăn mòn, có tính kháng hóa chất và vật lý cao và điện không dẫn điện. Thành phần: Nhựa, sợi thủy tinh, phụ gia và sắc tố là thành phần cơ bản của vật liệu GFRP. Nó có thể được sản xuất bất kỳ vật liệu phù hợp với yêu cầu bằng cách thay đổi các thành phần này. Nhựa: Tính kháng hóa chất, tính mềm dẻo và chống tia cực tím của lưới GFRP được xác định bằng nhựa. Nhựa được lựa chọn theo môi trường; Nhựa orthophthalic cho sử dụng chung, nhựa isophthalic cho môi trường hóa học và nhựa vinyl este cho môi trường hóa học cực kỳ nặng. Sợi thủy tinh: Sợi thủy tinh nhiều lớp liên tục được sử dụng trong sản xuất. Gated grip GFRP khuôn có tính kháng cơ cao do sợi thủy tinh. Phụ gia: Các chất phụ gia như chất ổn định tia cực tím, chất làm chậm cháy và các chất làm chậm mật độ khói thấp làm tăng khả năng chịu đựng về cơ học và hóa học và thêm các tính năng vượt trội mới. Bột màu: Các màu làm cho nó có thể cung cấp cho lưới GFRP bất kỳ màu nào. Điều này làm cho nó xảy ra sử dụng lưới điện GFRP trong các dự án kiến ​​trúc.

Đệm móng đúc Pedestals Fibergrate Hệ thống bệ lưới điều chỉnh được các thành phần chất lượng cao được thiết kế để hỗ trợ các ứng dụng grating nâng cao. Không điều chỉnh vô hạn trong phạm vi quy định, bệ tiêu chuẩn tăng nền tảng lưới và bệ tùy chỉnh với chéo chéo có thể nâng cao tầng trên độ cao cơ sở. Các bệ được bố trí theo kiểu “đầu đơn” và “đầu bốn chân” tạo điều kiện lắp đặt nhanh chóng, an toàn và kinh tế • CÂN Đ ADC ĐIỂM – Tạo ra các bề mặt đi bộ trên nền dốc • VERSATILE – Có sẵn cho tất cả các lưới lưới Fibergrate và Chemgrate • Chi phí thấp – Chi phí lắp đặt thấp và dễ dàng di dời đến các khu vực khác • ĐÈN ĐÈN – Các mô đun điều chỉnh được nhẹ và giảm. Chống ăn mòn – Polyester nhựa nhiệt dẻo và polyester vinyl pultruded có khả năng chống chịu được hầu hết các ứng dụng sàn ẩm ướt

Sàn lưới Hỗ trợ Sàn bằng sợi thủy tinh Grating Các bệ hỗ trợ Thỉnh thoảng, lưới FRP sẽ cần phải được hỗ trợ trong các khu vực đường đi bằng cách sử dụng phương pháp truyền thống và khung Không thể sử dụng được hoặc không thích hợp với môi trường làm việc Các khu vực, chẳng hạn như, Hóa chất bunds, Raise D sàn và trạm làm việc, phòng xử lý hoá chất phòng thí nghiệm, tăng lối đi bộ không trượt qua các tầng thoát nước và không gian làm việc, vách sàn treo, thang cáp thang máy, che giấu ống dẫn và các dịch vụ điện bên dưới, khu vực cần thiết để không dẫn điện. Các bệ đỡ FRPP của chúng tôi có thể nâng cao lưới sàn FRP của chúng tôi, và liên kết vào mô hình lưới của lưới của chúng tôi. Các bảng của lưới của chúng tôi có thể được nối, trên một bệ loại bỏ nhiều bệ trong cùng một khu vực. Các bệ nền rộng có thể được cố định vào sàn nhà nếu cần thiết, và cũng ở phía trên của lưới của chúng tôi, sử dụng 316 s / s của chúng tôi giữ các clip để phù hợp. Điều này cung cấp một cơ sở cực kỳ chắc chắn, có thể tải cao. Có sẵn trong một phạm vi độ cao, và điều chỉnh hoàn toàn để chứa sàn không đồng đều, chúng tôi có thể cung cấp bệ cho phù hợp với ứng dụng của bạn.

Giải pháp Cầu thang FRP – Cầu thang Cầu thang bằng sợi thủy tinh và cầu thang là một phần bổ sung cần thiết cho việc lắp đặt lưới đúc và đúc. Những lớp chống ăn mòn và trơn trượt này được sản xuất với nosing rõ ràng và cung cấp chỗ đứng an toàn trong môi trường khó khăn nhất. Các bậc thang và mặt nạ cầu thang có thể được cung cấp cắt theo kích cỡ quy định của khách hàng chính xác hoặc trong các tấm cổ phiếu dễ dàng chế tạo.
Cầu thang lót bao gồm một cách thuận tiện để cung cấp vững chắc chống trượt chân cho hiện tại lốp vẫn còn cấu trúc âm thanh. Nền móng của cầu thang có thể được cài đặt trên gỗ, bê tông hoặc các lát bằng kim loại. Màu công nghiệp tiêu chuẩn có màu xám đậm với màu nâu vàng an toàn nhìn thấy được và màu xám nhạt cho các ứng dụng kiến ​​trúc. Mặt nạ nhôm oxit tích hợp cung cấp nền an toàn cho độ an toàn tối đa và độ bền cao của lốp. Được gia cường bằng tấm thảm bằng sợi thủy tinh để đảm bảo độ bền và chống va đập, vỏ bọc này được làm theo đơn đặt hàng. Độ dày tiêu chuẩn bao gồm các lớp phủ dày khác nhau có sẵn cho các ứng dụng nặng. Tiêu chuẩn dài tấm được dễ dàng cắt giảm kích thước trong quá trình cài đặt, hoặc có sẵn precut chiều dài tùy chỉnh.
Nở Phosphorescent: Có thể đặt hàng bằng tấm phủ bằng sợi thủy tinh với lớp phủ phát sáng đặc biệt cho khu vực mũi, làm cho nó phát sáng ngay cả sau khi đã loại bỏ nguồn sáng chính. Nose đặc biệt hoàn hảo ở cầu thang làm lối thoát hiểm khẩn cấp trong suốt thời gian cúp điện, lối đi ngoài trời, nơi ánh sáng bị mờ theo thời gian như trong các vũ trường và phòng hòa nhạc hoặc là biện pháp an toàn cho hoạt động ban đêm trong các ứng dụng ngoài trời như trên các tàu chở khách. Nose đặc biệt này đã được thử nghiệm theo tiêu chuẩn ISO / TC Tàu và Công nghệ Hàng hải – Ánh sáng Vị trí Thấp trên Tàu chở khách.
Sợi thủy tinh> FRP Tread Covers> Tread Grip Một số tính năng vượt trội của TreadGrip là. Độ bền: TreadGrip là chất liệu composite chất lượng cao của tấm thảm bằng thủy tinh được ngâm tẩm nhựa polyester isophthalic. Sự hấp thụ năng lượng và tính linh hoạt của TreadGrip. Đảm bảo cuộc sống lâu dài của nó, ngay cả trong những môi trường bận rộn nhất. Chống trượt: Một hợp chất cacbon và silit grit được thêm vào trong lớp cuối cùng của laminate cung cấp bề mặt chống trượt tuyệt vời và cứng. Khả năng chống ăn mòn: TreadGrip có khả năng chống lại nhiều loại hóa chất và phù hợp nhất cho việc sử dụng thậm chí trong những môi trường khắc nghiệt nhất. Hướng dẫn kháng hóa chất có sẵn theo yêu cầu. Đơn giản để cài đặt: Sự linh hoạt của TreadGrip. Cho phép nó được áp dụng cho hầu hết các bề mặt như bê tông, thép hoặc gỗ. Thực tế là nó được cung cấp như một sản phẩm hoàn chỉnh có nghĩa là nó có thể được đi bộ ngay lập tức do đó giữ sự gián đoạn đến mức tối thiểu.
Cung cấp cầu thang FRP trong cả hai mặt nạ đúc và nạo vét. Có sẵn trong các hệ thống nhựa isopthalic, vinyl este và phenol chống cháy, phù hợp với cả ứng dụng công nghiệp và trong nước. Các lát cầu thang FRP có gắn mũi mũi tương phản theo yêu cầu của Tiêu chuẩn Úc về cầu thang để có màu tương phản phía trước (nosing) cho các bậc thang lên và xuống, dẫn đến một cầu thang an toàn hơn. Nói chung thang máy của chúng tôi màu sắc treads là: Màu xám với nosing vàng. Các màu khác có sẵn nếu bạn muốn kết hợp với thẩm mỹ và / hoặc môi trường. Có sẵn trong tiêu chuẩn của chúng tôi tấm lót hoặc chúng tôi có thể cắt giảm kích thước, chúng tôi hoan nghênh yêu cầu của bạn. Chiều rộng tiêu chuẩn của chúng tôi có mặt trên bề mặt đá chống trượt, nhưng chúng tôi cũng có thể cung cấp các lề đường với một đầu lõm cũng có độ chống trượt, nhưng dễ dàng làm sạch, ví dụ như cho ngành công nghiệp thực phẩm và nước giải khát. Lốp của chúng tôi được bảo đảm đến các góc đỡ bên dưới bằng cách sử dụng 316 s / s của chúng tôi loại M giữ clip – bạn có thể nhìn thấy những người trong các chỉ số mạ trên trang “Cài đặt Phụ”.
Nếu bạn sở hữu tòa nhà, điều hành một công ty hoặc quản lý không gian công cộng có cầu thang thì bạn có nghĩa vụ đảm bảo rằng mọi người sử dụng cầu thang đều an toàn. Anti Slip Stair Nosing là một cách tuyệt vời để đảm bảo rằng cầu thang được an toàn nhất có thể. Anti Slip Stair Nosing có thể làm giảm nguy cơ xảy ra tai nạn đáng kể. Cạnh hàng đầu của một cầu thang có thể trở nên trơn trượt khi ướt và thậm chí cả cầu thang bên trong có thể trơn trượt trong thời gian mưa khi mọi người theo dõi nước bên trong. Với chất lượng cao Edge Grip FRP Chống trượt Chân từ Monaco bạn có thể đảm bảo rằng các cạnh hàng đầu của cầu thang không trơn thậm chí trong điều kiện ẩm ướt nhất. Các đường trượt này có thể được trang bị trong nhiều tình huống khác nhau, bao gồm các không gian công cộng, khu thương mại và các ngành công nghiệp sau đây: Trạm đường sắt, Công viên và công viên, Trại đổ sữa, Cầu thang công nghiệp, Khu công nghiệp và thương mại, Trường học, Chống rò rỉ dầu, Cống dầu Cổng Cạnh của chúng tôi Grip Cầu thang chống trượt FRP Chốt có các tấm sợi thủy tinh mạnh được hình thành trước, độ bền cực kỳ bền và kết cấu thép cacbon silicone trên bề mặt có độ chống trượt cao. Chúng tôi cung cấp hai bề mặt trượt chống trượt, một lớp đất sét nhẹ được làm cho các tình huống bên trong và các vật liệu nặng khác được làm cho sử dụng bên ngoài. Edge Grip FRP Chống trượt Chân Nosing có một lông lông được cấp bằng sáng chế có nghĩa là nó có thể được trang bị cho hầu như mỗi loại bước mà không tạo ra một mối nguy hiểm chuyến đi làm cho nó an toàn nhất toàn diện Anti Slip Stair Nosing.

Một cryostat làm bằng sợi thủy tinh Sợi thủy tinh là một vật liệu vô cùng đa năng do trọng lượng nhẹ, sức mạnh vốn có của nó, thời tiết chịu được kết thúc và đa dạng của bề mặt kết cấu.
Sự phát triển chất dẻo bằng chất dẻo cho mục đích thương mại đã được nghiên cứu sâu rộng vào những năm 1930. Nó đã được đặc biệt quan tâm đến ngành công nghiệp hàng không. Một phương tiện sản xuất hàng loạt các sợi thuỷ tinh đã vô tình được phát hiện vào năm 1932 khi một nhà nghiên cứu tại Owens-Illinois chỉ đạo một máy bay khí nén ở một luồng thủy tinh nóng chảy và sản xuất sợi. Sau khi Owens sáp nhập với công ty Corning vào năm 1935, Owens Corning đã điều chỉnh phương pháp để sản xuất “Fiberglas” bằng sáng chế của mình (một “s”). Một loại nhựa thích hợp để kết hợp “sợi thủy tinh” bằng nhựa được phát triển vào năm 1936 bởi du Pont. Tổ tiên đầu tiên của nhựa polyester hiện đại là Cyanamid năm 1942. Các hệ thống xử lý Peroxide đã được sử dụng sau đó. Trong Thế chiến II, sợi thủy tinh được phát triển để thay thế cho gỗ dán đúc được sử dụng trong các máy bay radomes (sợi thủy tinh được minh bạch để lò vi sóng). Ứng dụng dân dụng chính đầu tiên của nó là để xây dựng các tàu thuyền và thân xe thể thao, nơi nó đã được chấp nhận trong những năm 1950. Việc sử dụng nó đã mở rộng sang lĩnh vực thiết bị thể thao và ô tô. Trong sản xuất một số sản phẩm, như máy bay, sợi carbon bây giờ được sử dụng thay vì sợi thủy tinh, mạnh hơn về khối lượng và trọng lượng. Các kỹ thuật sản xuất tiên tiến như pre-pregs và rovings sợi giúp mở rộng các ứng dụng của sợi thủy tinh và độ bền kéo có thể với chất dẻo bằng sợi.
Sợi thủy tinh cũng được sử dụng trong ngành công nghiệp viễn thông để bao phủ ăng-ten, do độ thẩm thấu của RF và tính suy giảm tín hiệu thấp. Nó cũng có thể được sử dụng để che giấu các thiết bị khác mà không cần đến tính thẩm thấu của tín hiệu, chẳng hạn như tủ thiết bị và các cấu kiện hỗ trợ thép, do dễ dàng sử dụng để sơn và pha trộn với các cấu trúc và bề mặt hiện có. Các ứng dụng khác bao gồm các tấm cách điện bằng tấm và các bộ phận kết cấu thường thấy trong các sản phẩm công nghiệp điện. Do trọng lượng nhẹ và độ bền của sợi thủy tinh, nó thường được sử dụng trong các thiết bị bảo hộ như mũ bảo hiểm. Nhiều môn thể thao sử dụng dụng cụ bảo vệ bằng sợi thủy tinh, chẳng hạn như mặt nạ của người đặt mục tiêu và người đánh bắt.
Bể chứa
Một số thùng chứa bằng sợi thủy tinh lớn tại sân bay Bể chứa có thể được làm bằng sợi thủy tinh với công suất lên đến khoảng 300 tấn. Các thùng nhỏ hơn có thể được làm bằng khuôn dải cắt nhỏ trên một thùng chứa bên trong bằng nhựa nhiệt dẻo hoạt động như một phôi trong quá trình thi công. Nhiều thùng xe đáng tin cậy hơn được làm bằng sợi dệt hoặc sợi filament, với hướng xơ ở góc phải với sự căng thẳng của bánh xe được đặt vào tường bên cạnh bằng nội dung. Những bồn chứa này có khuynh hướng được sử dụng để lưu trữ hóa học vì lớp lót bằng chất dẻo (thường là polypropylene) có khả năng chống lại nhiều loại hóa chất ăn mòn. Sợi thủy tinh cũng được sử dụng cho bể tự hoại.
Các
sản phẩm xây dựng trong nhà Các sản phẩm gia cố bằng kính cũng được sử dụng để sản xuất các bộ phận gia công nhà cửa như tấm lợp, cửa quanh, mái che cửa sổ, cửa sổ cửa sổ và cửa sổ ngủ, ống khói, hệ thống đối phó và đầu có keystones and sills. Trọng lượng giảm và xử lý dễ dàng hơn, so với gỗ hoặc kim loại, cho phép cài đặt nhanh hơn. Các tấm hiệu ứng gạch sợi thủy tinh sản xuất hàng loạt có thể được sử dụng trong xây dựng nhà ở dạng hỗn hợp, và có thể bao gồm cách nhiệt để giảm tổn thất nhiệt.

ใน การ ทำงาน ไฟเบอร์ กลา ส มี ความ จำเป็น ที่ ผู้ ทำงาน ประเภท นี้ ต้อง มี ความ รู้ ใน การ ป้องกัน อันตราย จาก ผง หรือ เส้นใย ไฟเบอร์ กลา ส
1. การ สูด ผง ใย แก้ว เข้าไป ควร ใช้ ผ้า หรือ หน้ากาก กรอง อากาศ ขณะ ทำงาน
2. ไม่ ควร เปิด พัดลม จน เกิด การ ฟุ้ง กระจาย ถ้า จำเป็น ต้อง เปิด ให้ อยู่ เหนือ ลม
3. ควร ใช้ ถุงมือ ทุก ครั้ง ขณะ ทำงาน หลีก เลี่ยง การ สัมผัส กับ ใย แก้ว โดยตรง
4. เมื่อ มี การ เจียร หรือ ขัด งาน ไฟ เบ อร กลา ส ควร ใช้ แว่นตา สำหรับ ป้องกัน เศษ ใย แก้ว
5. กรณี ที่ มี การ สัมผัส จน เกิด อาการ คัน แล้ว ให้ ใช้ ดิน น้ำมัน หรือ ก้อน ขี้ผึ้ง เตะ ที่ บริเวณ คัน หรือ ใช้ สบู่ หรือ ผงซักฟอก ฟอก บริเวณ ที่ คัน แล้ว ใช้ แปรง ถู และ น้ำ ฉีด แรง Hay còn có thể sử dụng nước nóng

Các loại sợi thủy tinh Được sử dụng: sợi thủy tinh phổ biến nhất: loại sợi thủy tinh phổ biến nhất được sử dụng trong sợi thủy tinh là kính E-glass, thủy tinh nhôm-borosilicat có ít hơn 1% w / w oxit kiềm, chủ yếu dùng cho gia cố bằng thủy tinh Nhựa. Các loại kính khác được sử dụng là kính A (kính Alkali-vôi có ít hoặc không có ôxit boron), kính E-CR (Điện / Hoá chất hóa học, Alumina silicat vôi với ít hơn 1% w / w alkali oxides, (Thủy tinh borosilicate, được đặt tên cho hằng số điện môi thấp của nó), thủy tinh C (kiềm-vôi thủy tinh với hàm lượng boron oxit cao, được sử dụng cho sợi thủy tinh staple và cách điện), kính D- MgO và CaO với các yêu cầu cơ học cao như Tăng cường) và S-glass (thủy tinh nhôm oxit không có CaO nhưng có hàm lượng MgO cao và độ bền kéo cao) Đặt tên và sử dụng: Silica Silicon (Silicon Dioxide), sau khi làm lạnh bằng Thạch anh kết hợp thành một cốc Không có điểm nóng chảy thực sự, có thể được sử dụng như một sợi thủy tinh cho sợi thủy tinh, nhưng có nhược điểm là nó phải được làm việc ở nhiệt độ rất cao. Để giảm nhiệt độ làm việc cần thiết, các vật liệu khác được giới thiệu là “các chất thông lượng” (các thành phần để hạ thấp điểm nóng chảy). Loại kính thông thường A-glass (“A” cho “kẽm kiềm”) hoặc thủy tinh vôi soda, đã nghiền và sẵn sàng để được nấu lại, như cái gọi là cullet glass, là loại thủy tinh đầu tiên được sử dụng cho sợi thủy tinh. E-glass (“E” vì ứng dụng điện ban đầu), không chứa kiềm và là công thức thủy tinh đầu tiên được sử dụng cho việc hình thành sợi filament liên tục. Nó bây giờ chiếm phần lớn sản lượng sợi thủy tinh trên thế giới, và cũng là người tiêu dùng lớn nhất của khoáng vật boron trên toàn cầu. Nó dễ bị tấn công ion clorua và là một lựa chọn nghèo nàn cho các ứng dụng hàng hải. S-glass (“S” dùng cho “cứng”) được sử dụng khi độ bền kéo (môđun cao) rất quan trọng, và do đó là một vật liệu xây dựng quan trọng và nhựa epoxy (được gọi là R-glass, “R” cho “reinforcement” Châu Âu). C-glass (“C” cho “kháng hóa chất”) và T-glass (“T” là “chất cách nhiệt” – một phiên bản C-glass ở Bắc Mỹ) có khả năng chịu được hóa chất; Cả hai thường được tìm thấy trong các lớp cách nhiệt của sợi thủy tinh thổi. ใ </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s> </s>
. สำหรับ งาน ที่ ต้องการ ทน สาร เคมี ที่ เป็น ด่าง
2. ชนิด C kính (Hóa học) ใช้ สำหรับ งาน ที่ ต้องการ ทน สาร เคมี ที่ เป้ น กรด และ กัดกร่อน
3. ชนิด E kính (Điện ป ใช้ สำหรับ งาน ที่ ต้องการ รับ แรง และ เป็น ฉนวน Bảo vệ ั น ไฟฟ้า ได้ ดี
4. ชนิด S kính (cường độ cao) ใช้ สำหรับ งาน ที่ ต้องการ รับ แรง สูง ที่ สูง กว่า ชนิด E kính

1. ใย แก้ว ชนิด ผืน เส้น สั้น (băm sợi mat) เป็น ใย แก้ว เส้น สั้น ยาว ประมาณ 1-2 นิ้ว โปรย ลง บน ผืน แบบ กระจาย เกาะ ตัว โดย ประสาน กาว (binder) สอง แบบ คือ มี
• แบบ Emution มี ลักษณะ เป็น แผ่น เรียบ • Tiêu đề: Dạng
bột có dạng dải dạng xơ dừa phù hợp với các công việc có diện tích sàn lớn hơn 100 200 300 450 600 và 900g / l า ราง เมตร ใช้ กับ งาน ไฟ บอ ร์ กลา ส ทั่วไป
2. ใย แก้วตา สาน (lưu động dệt) เป็น ใย แก้ว เส้น สั้น ทอ เป็น ผืน เป็น รูป ตา สาน มี ขนาด 400 600 800 900 1.000 1.200 และ กรัม / ตาราง เมตร ช่วย รับ แรง เสริม Công suất cao nâng lên khi dùng kính áp suất cao
30 60 90 100 160 200 và 300 cân / Dạy kỹ năng tạo động lực đã có thể làm được việc vặt ม ความ แข็งแรง บริเวณ ขอบ ชิ้น งาน และ บริเวณ ผิว บน และ ล่าง สุด ของ งาน
4. ใย สาน แบบ เย็บ ติด (Stitch mat) เป็น ใย แก้ว แบบ ผืน xắt nhỏ sợi mat เย็บ ด้วย เส้นใย โพลีเอสเตอร์ ทั้ง ผืน เวลา นำ ไป ใช้ งาน แล้ว ใย แก้ว จะ Không tẩy vết bẩn cho khuôn mặt của bạn với một lượng lớn 300 450 600 và 900 gam / miếng màng
5 lớp. Là một lớp phủ bề mặt giống như một tấm giấy nhỏ có kích thước 20 30 50 gr / mét vuông ช่วย ยึด เกาะ ผิว ชั้น เจ ล โค๊ ท ให้ แข็งแรง ขึ้น และ ช่วย ลด ปริมาณ ฟอง อากาศ ของ ชั้น เจ ล โค๊ ท กับ ใย แก้ว ได้
6. เทป ไฟเบอร์ (Glass băng) เป็น เส้นใยแก้ว นำ มา ทอ เป็น ผืน มี ขนาด กว้าง 2 นิ้ว 3 นิ้ว 4 inch được sử dụng cho các kết nối giữa các lớp nhựa và các phần của khuôn
7. Các sợi nhân tạo (Roving) như là một sợi dây chuyền bao gồm cả việc sử dụng đường kính 1 độ. Like TEX1200 = ความ ยาว 1 กม. Heavries 1 kg ที่ นิยม ใช้ มี ขนาด 1200 2200 2400 4800 เป็นต้น แบ่ง ตาม ลักษณะ การ ใช้ งาน ดังนี้
• แบบ พ่น (phun lên lưu động) ใช้ กับ เครื่อง พ่น ใย แก้ว นิยม ใช้ เบอร์ 2400
• แบบ พัน (sợi lưu động) ใช้ ใน การ พัน ท่อ ทำ ถัง น้ำ Với máy tiêu dùng đa năng sử dụng 600 600 800 1100 2200 2400 4800
• kiểu Pull (Pultrution roving) sử dụng trong các quy trình sản xuất theo tiêu chuẩn phổ biến sử dụng 2400 4800
• kiểu SMC (tấm đúc hợp chất) sử dụng tấm SMC dùng phổ 2400
• kiểu PANEL (tấm lợp) ใช้ ทำ หลังคา โปร่งแสง นิยม ใช้ เบอร์ 2400
8. ใย แก้ว เ ้ น สั้น (băm strand) เป็น เส้นใยแก้ว เส้น สั้น ขนาด ความ ยาว เส้น 3 6 9 12 มิลลิเมตร ใช้ เพิ่ม ความ แข็งแรง ของ ชิ้น งาน
9. ใย แก้ว ผง (Glass bột) เป็น ผง ใย แก้ว สี ขาว ใช้ เพิ่ม ความ แข็งแรง ป้องกัน การ ขีด ข่วน Và các vết bẩn trên bề mặt da
10. Phương pháp chải trực tiếp Chỉ đơn thuần là một lớp màng không gợn sóng bằng sợi dọc (sợi polyester) có đường nét 2 là kiểu đường thẳng và đường thẳng Chàm Get แรง และ กำลัง สูง ใน แนว เส้น สมมุติ ของ ทาง หนึ่ง


 

1.đoạn ortho-phthalic type là loại sử dụng có tác dụng
2. grade isophthalic type là loại có thể chịu axit – ด่าง tốt
3. grade bisphenol type là loại axit béo bão hòa – cao
rưỡi 4. grade chlorendics type – ด่าง cao
5. grade vinyl ester là loại chịu được axit – cao điểm mạnh mẽ với các tính năng như epoxy resin

1. nonpromote là loại nhiễm độc không liên kết được với các chất liệu giống nhau của mô hình của chúng ta sẽ trở thành sản phẩm của dầu ôliu Đã tìm ra dầu ôliu đã được đánh dấu lần đầu là ngày tháng lưu trữ 3 tháng Trong 1 tháng khi tham gia vào tháng 2 và 3 lần nữa sẽ bắt đầu với sự trợ giúp của nhân viên) và có thể sử dụng các biểu mẫu để tạo ra một phong cách khác nhau พลี เอ ส เท อ ร์ เร ซิ่น ชนิด không thúc đẩy
2. thúc đẩy คือ เร ซิ่น ชนิด ที่ ผสม สาร ช่วย เร่ง ฯ มา แล้ว ลักษณะ ของ เนื้อ เร ซิ่น จะ เป็น ของเหลว ค้น คล้าย น้ำมันเครื่อง แต่ มี สีชมพู บานเย็น เพราะ เป็น เร ซิ่น ที่ ได้ ผสม สาร ช่วย เร่ง ปฏิกิริยา แล้ว เมื่อ นำ มา ใช้ งาน ก็ แค่ เติม สาร เร่ง ฯ ลง ไป ใน เรื่อง ของ สี เร ซิ่น นั้น บาง บริษัท ผู้ ผลิ ด อาจ มี การ ใช้ สาร ช่วย เร่ง ที่ แตก ต่าง ดังนั้น เร ซิ่น ชนิด ผสม สาร ช่วย เร่ง บาง ตัว จ ะ มี สี อ ล้ำ คล้าย น้ำ เฉาก๊วย และ สำหรับ ชนิด ที่ ใช้ กับ งาน หล่อ ใส แล้ว เร ซิ่น จะ มี สี ใส อม น้ำเงิน อ่อน ๆ จุดเด่น คือ ใช้ งาน ง่าย และ คล่อง ไม่ ยุ่งยาก แต่ ข้อ เสีย คือ มีอายุ การ เก็บ สั้น อายุ การ เก็บ ไม่ เกิน 2 months ago

Chất lượng của sản phẩm và tính chất hóa
học Các sản phẩm có tính năng cho bề mặt chắc chắn cao hơn các loại nhựa khác (termoplastic) Sẽ có thêm sức mạnh để tăng cường sức mạnh của chiếc điện thoại này. Không giống như các sản phẩm điện năng tiêu biểu có thể sử dụng được น ฉนวน ไฟฟ้า (cách điện) ได้

Chúng tôi không có bất
kỳ mối liên hệ nào với tác giả cũng như không chịu trách nhiệm về nội dung của các file này.
2. Nhóm kỹ thuật viên (laminate) giống như kỹ sư phần mềm
3. Nhóm kỹ sư sản xuất khuôn mẫu FRP (fiberglass reinforce plastic)

โพ ลี เอ ส เท อ ร์ เร ซิ่น สามารถ แข็งตัว ได้ หลาย วิธี ดังนี้
1. โดย ใช้ ตัว chất xúc tác หรือ ตัว ทำให้ แข็ง + ความ ร้อน
2. โดย ใช้ ตัว chất xúc tác หรือ ตัว ทำให้ แข็ง + ตัว ช่วย เร่ง ปฏิกิริยา thúc đẩy / accelerator ที่ อุณหภูมิ ห้อง
3 . โดย ใช้ แสง อุ ล ต ร้า ไว โอ เลต
4. โดย ใช้ อิ เล ค ตรอน
5. โดย ให้ แสงแดด
6. ใช้ ความ ร้อน โดย
โดย ทั่วไป การ แข็งตัว ของ เร ซิ่น แบ่ง ออก เป็น 2 ช่วง คือ ช่วง ที่ thời gian 1. gel คือ Theodore fill factor after the rain pokemon วุ้น ช่วง ที่ 2. Thời gian chữa bệnh คือ ช่วง ที่ เร ซิ่น แข็งตัว เต็มที่ และ เป็น ช่วง ที่ เร ซิ่น เย็น ตัว ลง หลังจาก ที่ มี ความ ร้อน สูง ใน ขณะ ทำ ปฏิกิริยา

1. Nhiệt độ cơ thể tăng nhanh hơn so với nhiệt độ thấp
2. Khối lượng gia tăng và năng lượng gia đình tăng nhanh hơn nhiều so với mức độ nhẹ nhàng
3. độ ẩm cao hơn Phẫu
thuật thẩm mỹ có thể được thực hiện bởi các bác sĩ chuyên khoa da liễu và các bác sĩ chuyên khoa da liễu. ร ซิ่น มาก ๆ นาน ๆ การ แข็งตัว ของ เร ซิ่น จะ ช้า ลง และ ออกซิเจน มี ประ โย 9 น์ มาก ใน เรื่อง การ ยืด อายุ การ เก็บ ของ เร ซิ่น หาก เริ่ม เก็บ เร ซิ่น ไว้ นาน ขึ้น ควร สร้าง ออกซิเจน ให้ เกิด ใน ถัง หรือ ปี บด ว้ ย การ กลิ้ง ถัง ไป มา เพื่อ ให้ เร ซิ่น ข้าง ใน เกิด การ เคลื่อนไหว จะ เกิด ออกซิเจน และ จะ ทำให้ เร ซิ่น มี อา ยู การ เก็บ เพิ่ม ขึ้น อีก เล็กน้อย

1. Thermoplastic (nhựa mềm)
nhựa mềm khi bị nóng sẽ trở nên mềm mại hơn và các loại nước hoa sẽ có loại nhựa cứng này có thể mang lại cho bạn một bộ sưu tập mới. (Polyethelene) Polyethylene (Polyvinyl Chloride) khác
2. Thermoseting ( Polyethelene) Polyethelene (Polyethelene) Polyethelene (Polypropylene) Thêm bài này vào danh sách Video của bạn Download bài này Polyethelene พลาสติก แข็ง)
พลาสติก แข็ Khi bị căng thẳng và không mệt mỏi nhưng sẽ bốc mau vào Sản phẩm của bạn loại này khi nén hình hoặc sử dụng các sản phẩm sau đó sẽ được sử dụng để làm lại bộ phim này không thể นำ มา บด หลอม ใช้ อีก ได้ เนื่องจาก แข็งตัว ทำให้ เนื้อ พลาสติก เกิด การ เปลี่ยนแปลง ทาง เคมี พลาสติก ชนิด นี้ ทำ มา จาก พลาสติก อ่อน โดย การ เติม ตัว เร่ง ที่ เรียก ว่า làm cứng ลง ไ (Melamine Formaldehyde), Phenolol (Phenolol), Phản ứng dị ứng với các chất chống oxy hoá, (Upoetane) Eupsy (Epoxy) là một trong những sản phẩm có chất lượng tốt nhất trên thị trường.

Composite เป็น ชื่อ เรียก ของ ผลิตภัณฑ์ ที่ ประกอบด้วย วัสดุ ตั้งแต่ สอง ชนิด ขึ้น ไป มา ประกอบ หรือ ร่วมมือ กัน เพื่อ ใช้ คุณสมบัติ เด่น ของ แต่ละ วัสดุ ตัวอย่าง ของ วัสดุ คอม โพ สิ ท ที่ เข้าใจ ได้ ชัด ได้แก่ ยาง รถยนต์ ซึ่ง ประกอบ มา จาก วัสดุ หลัก สอง ชนิด คือ ยาง Và sản phẩm bằng thép không gỉ bằng cách sử dụng thép cường dách và chất dẻo cho da đầu của bạn bằng cách sử dụng một cách hợp lý Mặc dù có thể sử dụng loại thép này nhưng sẽ không sử dụng được loại pin này vì nó sẽ tiêu tốn rất nhiều thời gian cho việc tái sử dụng. ที่ เด่น ทั้ง เหล็ก การ รับ แรง อัด และ แรง ดึง แต่ ราคา สูง และ การ ซ่อม บำรุง สูง เนื่องจาก เป็น สนิม ได้ ง่าย
หลาย คน รู้จัก ไฟเบอร์ กลา ส ว่า เป็น วัสดุ คอ (Plastic reinforced plastic, FRP) hoặc nhựa tổng hợp (glass reinforced plastic, GRP) nhưng có thể là sợi thủy tinh của sợi thủy tinh để tạo thành sợi dây Để có thể tham gia thảo luận, các bạn phải đăng ký làm thành viên Đăng ký làm thành viên trước khi tham gia thảo luận trong diễn đàn. Loại tã cỡ hạt lớn Xe ô tô có màng tế bào Các loại mô tơ tăng lực không được coi là rỏ ràng và có liên quan đến việc bôi nhọ bên ngoài này còn có Khái niệm chung về việc sử dụng là một trong những điểm cần được sử dụng Replace in Pipe Stamp

Là loại nhựa dùng cho ngành công nghiệp nhựa (thermosetting) tại đây Hãy sử dụng các sản phẩm thủ công như nhựa giả (bột viên nhỏ) để tạo ra các sản phẩm tương tự như ô tô, และ การ สร้าง ความ แข็งแรง ให้ กับ ชิ้น งาน หรือ แม่พิมพ์ (เม็ด โฟม มี ขนาด ใหญ่ กว่า) ตลอด จน การนำ มา ฉีด เพื่อ เป็น ฉนวน ของ ห้อง เย็น มี ลักษณะ เป็น ของเหลว 2 ชนิด
ชนิด ที่ 1 มี สี เหลือง ค ล้ ย โพ ลี เอ ส เท อ ร์ เร ซิ่น เรียก ว่า โฟม ขาว หรือ โพ ลิ ออ ล (polyol)
ชนิด ที่ 2 มี สี น้ำตาล ไหม้ เกือบ ดำ เรียก ว่า โฟม ดำ หรือ ได ไอ โซ ไซ ยา เนต (diisocyanate)
โพ ลี ยู รี เท Là một trong số các nhóm sử dụng các thành phần tương tự như các tài liệu có độ bền cao và có trọng lượng
nhỏ hơn là một trong ba nhóm với nhau là ชนิด ยืดหยุ่น (linh hoạt polyurethane bọt)
– โพ ลี ยู รี เท น โฟม ชน ด แข็ง (cứng nhắc polyurethane bọt)
– (chất đàn hồi polyurethane) อิ ลา ส โต เม อ ร์

ABS là một loại nhựa kỹ thuật có chi phí thấp rất dễ dàng để chế tạo và chế tạo. ABS là vật liệu lý tưởng cho các ứng dụng kết cấu khi chịu được sức chống va đập, độ bền và độ cứng. Nó được sử dụng rộng rãi để gia công các nguyên mẫu tiền sản xuất vì nó có độ ổn định tuyệt vời và dễ sơn và keo. Màu tự nhiên (màu be) ABS và ABS đen phù hợp với FDA để sử dụng trong các ứng dụng chế biến thực phẩm. Thông tin vật lý sau đây được dựa trên các giá trị tiêu biểu của nhựa bazan acrylonitrile-butadiene-styrene.
ABS là một terpolymer được tạo ra bằng cách trùng hợp styrene và acrylonitrile với sự hiện diện của polybutadiene. Tỷ lệ có thể thay đổi từ 15 đến 35% acrylonitrile, 5 đến 30% butadien và 40 đến 60% styrene. Kết quả là một chuỗi dài polybutadiene criss-crossed với chuỗi ngắn hơn của poly (styrene-co-acrylonitrile). Các nhóm nitril từ các dây xích lân cận, đang bị cực, thu hút nhau và liên kết các dây xích lại với nhau, làm cho ABS mạnh hơn polystyrene tinh khiết. Styrene tạo cho nhựa một bề mặt bóng, không thấm. Polybutadiene, một chất cao su, cung cấp độ dẻo dai thậm chí ở nhiệt độ thấp. Đối với phần lớn các ứng dụng, ABS có thể được sử dụng trong khoảng từ -20 đến 80 C (-4 và 176 F) do đặc tính cơ học của nó thay đổi theo nhiệt độ. Các tính chất được tạo ra bởi sự dẻo dai cao su, nơi các hạt tinh thể tốt được phân bố trong suốt ma trận cứng nhắc.
Các đặc tính cơ học quan trọng nhất của ABS là chịu va đập và độ dẻo dai. Một loạt các sửa đổi có thể được thực hiện để cải thiện sức đề kháng tác động, dẻo dai, và nhiệt kháng. Chống va đập có thể được khuếch đại bằng cách tăng tỷ lệ polybutadiene liên quan đến styrene và acrylonitrile, mặc dù điều này gây ra những thay đổi trong các tính chất khác. Độ bền va đập không giảm mạnh ở nhiệt độ thấp. Tính ổn định dưới tải là tuyệt vời với tải giới hạn. Do đó, bằng cách thay đổi tỷ lệ của các thành phần của nó, ABS có thể được chuẩn bị trong các cấp khác nhau. Hai loại chính có thể là ABS cho đùn và ABS cho khuôn phun, sau đó cao và trung bình chịu tác động. Nói chung ABS sẽ có các đặc tính hữu ích trong khoảng nhiệt độ từ 20 đến 80 C (4 đến 176 F). Gạch Lego được làm từ ABS.
Các đặc tính cuối cùng sẽ bị ảnh hưởng ở một mức độ nào đó bởi các điều kiện mà vật liệu được xử lý cho sản phẩm cuối cùng. Ví dụ, đúc ở nhiệt độ cao giúp tăng độ bóng và sức chịu nhiệt của sản phẩm, trong khi chịu được va đập và sức chịu đựng cao nhất bằng cách đúc ở nhiệt độ thấp. Các sợi (thường là sợi thủy tinh) và các chất phụ gia có thể trộn lẫn trong các hạt nhựa để làm cho sản phẩm cuối cùng mạnh mẽ và tăng phạm vi hoạt động tới 80 C (176 F). Bột màu cũng có thể được thêm vào, vì màu gốc nguyên liệu thô là màu trắng ngà là màu trắng ngà. Các đặc điểm lão hóa của các polyme chịu ảnh hưởng chủ yếu bởi các nội dung polybutadiene, và nó là điều bình thường bao gồm chất chống oxy hóa trong thành phần. Các yếu tố khác bao gồm tiếp xúc với tia cực tím, mà chất phụ gia cũng có sẵn để bảo vệ chống lại.
Các polyme ABS có khả năng kháng axit, kiềm, axit clohiđric và phosphoric cô đặc, rượu cồn và dầu động vật, dầu thực vật và khoáng chất, nhưng chúng bị sưng lên bởi axit axetic băng, cacbon tetrachlorua và hydrocacbon thơm và bị tấn công bởi các axit sunfuric và axit nitric. Chúng hòa tan trong este, ketones, ethylene dichloride và aceton. Mặc dù chất dẻo ABS được sử dụng chủ yếu cho mục đích cơ học, chúng cũng có các tính chất điện khá ổn định trên nhiều dải tần. Những đặc tính này ít bị ảnh hưởng bởi nhiệt độ và độ ẩm khí quyển trong phạm vi nhiệt độ hoạt động được chấp nhận.
ABS rất dễ cháy khi nó bị phơi nhiễm với nhiệt độ cao, ví dụ như lửa của gỗ. Nó sẽ tan chảy và sau đó đun sôi, tại thời điểm đó các hơi nóng bốc cháy, nóng. Kể từ khi ABS nguyên chất không chứa halogen, sự đốt cháy của nó thường không gây ra chất ô nhiễm hữu cơ liên tục, và các sản phẩm độc hại nhất của quá trình cháy hoặc pyrolysis là carbon monoxide và hydrogen cyanide. ABS cũng bị hư hại do ánh sáng mặt trời. Điều này đã gây ra một trong những vụ thu hồi xe hơi phổ biến và đắt đỏ nhất trong lịch sử Hoa Kỳ do sự xuống cấp của các nút thắt dây an toàn.
ABS có thể được tái chế, mặc dù nó không được chấp nhận bởi tất cả các cơ sở tái chế. Sản xuất
ABS được sản xuất từ ​​acrylonitrile, butadiene, và styrene. Acrylonitrile là một monomer tổng hợp được sản xuất từ ​​propylen và amoniac; Butadien là một hydrocarbon dầu mỏ thu được từ các phần C4 của nứt hơi; Monomer styren được tạo ra bằng cách khử hydro etyl benzen – một hydrocarbon thu được trong phản ứng của ethylene và benzen.
ABS kết hợp sức mạnh và độ cứng của các polyme acrylonitrile và styrene với độ dẻo dai của cao su polybutadien. Trong khi chi phí sản xuất ABS khoảng gấp đôi chi phí sản xuất polystyrene, nó được coi là cao cấp cho độ cứng, bóng, độ dẻo dai của nó, và tính chất cách điện.

Polypropylene (PP) là gì và nó được sử dụng để làm gì? 
Polypropylene (PP) là một “polymer phụ” bằng nhựa nhiệt dẻo được làm từ sự kết hợp các monome propylen. Nó được sử dụng trong nhiều ứng dụng bao gồm bao bì cho các sản phẩm tiêu dùng, các bộ phận nhựa cho nhiều ngành công nghiệp bao gồm ngành công nghiệp ô tô, các thiết bị đặc biệt như bản lề sống, và hàng dệt. Polypropylene lần đầu tiên được trùng hợp vào năm 1951 bởi một cặp nhà khoa học về dầu mỏ Phillips tên Paul Hogan và Robert Banks và sau đó là các nhà khoa học người Ý và Natta và Rehn. Nó đã trở nên nổi bật cực kỳ nhanh chóng, vì sản xuất thương mại đã bắt đầu chỉ mới ba năm sau khi nhà hóa học người Ý, giáo sư Giulio Natta, lần đầu tiên hoá nó. Natta hoàn thiện và tổng hợp nhựa polypropylene đầu tiên ở Tây Ban Nha vào năm 1954, và khả năng của polypropylene để kết tinh tạo ra rất nhiều hứng thú. Đến năm 1957, sự phổ biến của nó đã bùng nổ và phổ biến rộng rãi sản xuất thương mại bắt đầu trên khắp châu Âu. Ngày nay, nó là một trong những loại nhựa được sản xuất phổ biến nhất trên thế giới. Bản mô tả bằng tiếng Anh Cơ chế Sáng tạo
Theo một số báo cáo, nhu cầu toàn cầu hiện nay về vật liệu tạo ra một thị trường hàng năm khoảng 45 triệu tấn và ước tính rằng Nhu cầu sẽ tăng lên khoảng 62 triệu tấn vào năm 2020. Những người sử dụng chính của polypropylene là ngành đóng gói, tiêu thụ khoảng 30% tổng số, tiếp theo là sản xuất thiết bị điện, sử dụng khoảng 13% mỗi. Các thiết bị gia dụng và ô tô đều tiêu thụ 10% mỗi loại và vật liệu xây dựng sau đó chiếm 5% thị trường. Các ứng dụng khác cùng chiếm phần còn lại của tiêu thụ polypropylene toàn cầu.
Polypropylene có bề mặt trơn trượt có thể làm cho nó có thể thay thế cho chất dẻo như Acetal (POM) trong các ứng dụng ma sát thấp như bánh răng hoặc để sử dụng như một điểm tiếp xúc cho đồ nội thất. Có thể một khía cạnh tiêu cực của chất lượng này là nó có thể rất khó để kết nối Polypropylene với các bề mặt khác (nghĩa là nó không dính chặt với một số keo làm việc tốt với các chất dẻo khác và đôi khi phải được hàn trong trường hợp tạo thành khớp ). Mặc dù polypropylene trơn ở mức phân tử, nhưng nó có hệ số ma sát tương đối cao – đó là lý do tại sao acetal, nylon hoặc PTFE sẽ được sử dụng thay thế. Polypropylene cũng có mật độ thấp so với các loại nhựa thông thường khác, nghĩa là tiết kiệm trọng lượng cho các nhà sản xuất và nhà phân phối các bộ phận bằng Polypropylene được đúc khuôn. Nó có tính kháng đặc biệt ở nhiệt độ phòng để dung môi hữu cơ như chất béo nhưng bị oxy hóa ở nhiệt độ cao hơn (một vấn đề tiềm ẩn trong quá trình đúc).
Một trong những lợi ích chính của Polypropylene là nó có thể được sản xuất (hoặc thông qua CNC hoặc ép phun, thermoforming, hoặc crimping) vào bản lề sống. Bản lề sống là những miếng nhựa mỏng cực kỳ uốn cong mà không bị phá vỡ (thậm chí trong phạm vi chuyển động cực gần 360 độ). Chúng không đặc biệt hữu ích cho các ứng dụng kết cấu như giữ một cửa nặng nhưng đặc biệt hữu ích cho các ứng dụng không chịu tải như nắp trên một chai nước sốt cà chua hoặc dầu gội đầu. Polypropylene là duy nhất chuyên nghiệp cho bản lề sống vì nó không phá vỡ khi nhiều lần uốn cong. Một trong những ưu điểm khác là polypropylene có thể được gia công bằng máy CNC để bao gồm bản lề sống cho phép phát triển mẫu nhanh hơn và rẻ hơn các phương pháp tạo mẫu khác. Cơ chế sáng tạo là đặc biệt trong khả năng của chúng tôi để bản bản lề sống từ một mảnh polypropylene.
Một ưu điểm khác của Polypropylene là nó có thể dễ dàng copolymerized (chủ yếu kết hợp thành một nhựa composite) với các polyme khác như polyethylene. Copolymerization làm thay đổi đáng kể tính chất của vật liệu, cho phép ứng dụng kỹ thuật mạnh mẽ hơn là có thể với polypropylene nguyên chất (nhiều hơn một loại nhựa hàng hoá riêng của nó).
Các đặc tính đã đề cập ở trên và dưới đây có nghĩa là polypropylene được sử dụng trong nhiều ứng dụng: đĩa an toàn, máy rửa chén, cốc, hộp đựng đồ uống không rõ ràng và nhiều đồ chơi.

Đặc tính của Polypropylene là gì? 
Một số tính chất quan trọng nhất của polypropylene là: Độ
bền hóa học: Các bazơ và axit pha loãng không phản ứng dễ dàng với polypropylene, điều này làm cho nó trở thành sự lựa chọn tốt cho các thùng chứa chất lỏng như chất làm sạch, các sản phẩm cấp cứu và nhiều thứ khác.
Độ dẻo và độ cứng: Polypropylene sẽ hoạt động với tính đàn hồi trong một phạm vi độ lệch (như tất cả các vật liệu), nhưng nó cũng sẽ gặp phải sự biến dạng dẻo sớm trong quá trình biến dạng, vì vậy nó thường được coi là vật liệu “cứng”. Dẻo dai là một thuật ngữ kỹ thuật được định nghĩa là khả năng của một vật liệu biến dạng (dẻo, không đàn hồi) mà không vi phạm ..
mệt mỏi Kháng: Polypropylene giữ lại hình dạng của nó sau khi rất nhiều xoắn, uốn, và / hoặc linh hoạt hơn. Tài sản này đặc biệt có giá trị để làm bản lề sống.
Cách điện: Polypropylene có điện trở rất cao và rất hữu ích cho các linh kiện điện tử.
Transmissivity: Mặc dù Polypropylene có thể được làm trong suốt, nó thường được sản xuất có màu đục tự nhiên. Polypropylene có thể được sử dụng cho các ứng dụng mà một số chuyển ánh sáng là quan trọng hoặc nơi mà nó có giá trị thẩm mỹ. Nếu độ truyền cao là mong muốn thì nhựa như Acrylic hoặc Polycarbonate là sự lựa chọn tốt hơn.
Polypropylene được phân loại như là một “nhiệt” (như trái ngược với “nhiệt rắn”) vật liệu đó đã làm với các đường nhựa phản ứng nhiệt. Vật liệu nhiệt dẻo trở thành chất lỏng ở nhiệt độ nóng chảy của chúng (khoảng 130 o C trong trường hợp polypropylene). Một thuộc tính hữu ích chính về nhựa nhiệt dẻo là chúng có thể được nung nóng đến điểm nóng chảy của chúng, làm mát và nóng lại mà không bị xuống cấp đáng kể. Thay vì đốt, chất dẻo nhiệt như chất lỏng polypropylene, cho phép chúng được dễ dàng tiêm đúc và sau đó được tái chế. Ngược lại, chất dẻo thermoset chỉ có thể được làm nóng một lần (thông thường trong quá trình đúc phun). Việc sưởi ấm đầu tiên làm cho vật liệu nhiệt được thiết lập (tương tự như một epoxy 2 phần) dẫn đến sự thay đổi hóa học mà không thể đảo ngược được. Nếu bạn đã cố gắng để nhiệt một nhiệt nhựa với nhiệt độ cao lần thứ hai nó chỉ đơn giản là sẽ cháy. Đặc tính này làm cho vật liệu nhiệt liệu nghèo ứng cử viên để tái chế.

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GFRP Gạch bê tông cốt thép GFRP Lò nướng Lò nướng, đường ống thoát nước thoát nước đường ống thoát nước, đúc gang nong, Tầng đi bộ Lối đi bộ, Tấm ván Lắp Ghép Ghế Saddle Khóa Chốt Chốt Chốt Chốt Chốt Chiều rộng Chiều ngang Chiều ngang Chiều ngang Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Chiều rộng Lọ nước muối, nước muối, nước muối, nước muối, nước chanh, ิ ด คอนกรีต ปูนซีเมนต์ เสริม เหล็ก, ฝา ปิด งาน ระบบ บำบัด รวบรวม น้ำ เสีย ทิ้ง ชนิด สั่ง ตัด ได้ ทันที ; Gạch lát, gạch lát, gạch lát, gạch lát, gạch lát, gạch lát, gạch lát, gạch lát, gạch lát, gạch lót, Thiết bị bảo vệ, # nhà máy sản xuất dụng cụ cầm tay Dụng cụ cầm tay Rack Hard Board Store Tổ chức Bảng Xếp Hạng Bảng Xếp Hạng Bảng Xếp Hạng Bảng Xếp Hạng Ống lót vách ngăn mương thoát nước đường rãnh thoát nước đường giao thông, bẫy mương bẫy mương rãnh thoát nước dọc theo đường cao tốc, vách ngăn bão với đường ống dẫn và ống cống xả nước Phạt nước Quét dọn sạch sẽ các sản phẩm chiết xuất từ ​​các hạt bụi chà dừa Khuôn mẫu Khuôn mẫu Khuôn mẫu Khuôn mẫu Khu nghỉ dưỡng Khu nghỉ mát Khu nghỉ dưỡng Khu nghỉ mát Khu nghỉ mát Khu nghỉ dưỡng Khu nghỉ mát Khu nghỉ mát Khu nghỉ mát Khu nghỉ mát Bột nhựa PP PVC Bê tông nhựa PVC Bê tông nhựa, Bồn tắm mái nhà, Tấm lợp mái nhà, Tấm lợp bên ngoài, Tấm lát sàn Và các khu vườn vệ sinh cùng nhau, các bãi cỏ nhựa lai tạo ra các tấm trải giường bằng nhựa và các loại đèn sân vườn được bổ sung như là một chiếc ghế bằng đồ dùng cho các điểm tham quan của các hãng hàng hải khác nhau และ เป็น เอกลักษณ์ สวยงาม
อ ลู มิ เนียม คอม โพ สิ ท สิต, เอ ฟ อา ร์ พี, ทน สึก กร่อน สนิม ความ ร้อน ไฟ กรด ด่าง เคมี , ประหยัด พลังงาน ไม่ บวมน้ำ ปราศจาก สาร พ ษ ไม่ ลาม ไฟ, ไฟเบอร์ กลา ส หรือ ใย แก้ว ชนิด พิเศษ คือ อะไร , Pantip Siam Steel, Fibergrate Strongwell Webforge Hilti, Knack dos MCH, SCG HOmepro Depot ไท วัสดุ, งาน ซ่อมแซม พื้น, วัสดุ เคลือบ พื้น ผิว, อี พ็ อก ซี่, อี , PE PU bê tông, lớp lót, đá cứng, cải tạo nhà máy, bếp khu vực, Bao gồm các chất hữu cơ, các chất dẻo, chất dẻo, chất dẻo, chất dẻo, เบอร์ ก ล๊า ส, หลังคา เม ทั ล ชีท, วัสดุ ทดแทน เหล็ก, ไม้ เทียม สังเคราะห์, ชีวภาพ, รีไซเคิล, อุปกรณ์, ฟ ล อ รู ฟ เดรน, พื้น กัน สึก กัน กระแทก, รางน้ำ ล้น รอบ ขอบ สระ ว่า ย น้ำ, แผ่น เรียบ บานเกล็ด , แผ่น พื้น ยาง ปู พื้น รอบ แท่น เครื่องจักร, พา เลท ถาด รอง ชั้น วาง, พื้น โรงเรือน บล็อก ตัว หนอน บล็อค ปู ถนน ตกแต่ง พื้น สนาม หญ้า , ทาง เดิน แท่ง ราง ตัว ยู ระบาย น้ำ ทิ้ง ริม ขอบ ฟุตบาท , วาย เมท, วาย ไว ร์ เม Kho, với ฟ รม ช่อง ระบาย น้ำ, ลวด เหล็ก ฉีก พับ ฉลุ เจาะ รู, เหล็ก ยืด คาร์บอน ไฟเบอร์, ลาย ตีนเป็ด ไก่, ราง ระบาย น้ำ ฝน, ขั้น บันได กัน ลื่น, ราว กัน ตก, มิ นิ ตะ ข่าย กัน กลิ่น, บ ล๊ อ ค ปู ถนน Bên ngoài, bể cá, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ, tủ bếp, sàn gỗ, Rèm che / Trellis bóng râm, tấm chắn bạt, màn hình phân chia mặt trời đầy màu sắc, chống chim Rèm lưới, màn lưới trang trí nhỏ, màn trần trang trí trần mở trần: ứng dụng: văn phòng, phòng họp, siêu thị, trường học, hành lang, nhà vệ sinh phòng tắm, bệnh viện, trang trí lại, vách hành, phơi nắng ทิ ชั่ น หลังคา กันสาด ระแนง บังตา ตะ ข่าย บานพับ เฟี้ยม ซุ้ม ไม้ เลื้อย กำแพง , แผง ระแนง ด้าน นอก บังตา หน้ากาก ตึก ตะแกรง กั้น ช่อง แสง บัง ไฟ , โคม ติด ลอย ตะแกรง ฝัง ฝ้า ที บาร์, แผ่น ฝ้า เพดาน แบบ เกี่ยว แขวน, ฉาก ฝา ผนัง เบา Curtain promised บัง nhìn raån ng บานopfers Bánh xe lửa, bánh răng, bánh răng, bánh răng, bánh răng, bánh răng, bánh răng, bánh răng, bánh xe, bánh kẹo, bánh kẹo, bánh kẹo, bánh kẹo, Dạng trang trí nội thất cao cấp
GFRP Composite Diamond Top Cống Miếng Chảo Checker Bề mặt mảng (phủ lớp bọc lưới rèm) น) www.chancon.co.th GIẢI PHÁP CHUYÊN Grating và LÀM THẾ NÀO ĐỂ LẮP ĐẶT: Outdoor Round Rectangle Quảng trường, Thông tư Circle, Chế tạo đơn giản Cống Gully, Ngói Strip di trần Gratings, đèo cách tầng hầm vĩa hè, lát lưới nhựa, Sealed lỗ cống bằng tay nâng Lifter, Catch lưu vực, cư Trench thoát nước di động, làm sạch ra, Đường vào nhà Tầng vòi hoa sen xả tấm lưới chấn song, thoát nước, Chìm cover, ống bị tắc, dẻo đúc Grey sắt, thép không gỉ thay thế, hybrid xi măng sợi gỗ Gỗ WPC, rô tấm Duck, phụ kiện, Vệ sinh, hatch box, remover, block khối xây gạch, drainer dish, mở kênh, tàu, van thông gió, lọc, bể bơi, bơm, tàu, thay thế khu vực bị ô nhiễm, dẫn điện, chống ăn mòn khung, Lattice, mưa Shooter nước, Crate Grille Diffuser Divider Ánh sáng Aquarium Panel, Trắng polystyrene trứng thùng cho không khí trở lại và venting. Chiếu sáng Tấm lọc nhựa Thủy tinh biển Pond, Tủ lạnh không khí lạnh HVAC / Lưới chải lõm đôi, Lò chậu vivarium sử dụng để tạo thành tấm Túi lọc để lọc Túi lọc từ Tấm lợp / Tấm huỳnh quang Tấm lợp sàn bằng tấm lợp Tấm lát cửa sổ Tủ cửa sổ Tủ cửa sổ B ง ไฟ ตกแต่ง ตู้ โชว์ สินค้า ใช้ ทดแทน ฝ้า เพดาน อ ลู มิ เนียม ระบาย อากาศ ใช้ เป็น อุปกรณ์ ตกแต่ง สำหรับ เลี้ยง ปลา สวยงาม ทำ แผง กั้น แบ่ง ห้อง โครงสร้าง ผนัง บ่อ ตู้ ภาชนะ เพาะ เลี้ยง สัตว์ น้ำ กุ้ง กบ ซา ลา แมน เด อ ร์
FRP Sản phẩm, GFRPS , sợi thủy tinh gia cố cốt thép Polymer, cốt sợi thủy tinh tấm, vật liệu xây dựng tổng hợp, vinyl ester nhựa, bollards gốc thân cây điêu khắc an toàn Tree hố đường trong trang trí nội, ngoại thất sân vườn Lưới Big cây, cây vành đai bảo vệ Guard an toàn Grating Thớt Khung bìa cho người đi bộ, đường đường , Khuôn mẫu, pultrusion, pultuded hồ sơ, bao gồm hàn lưới mang bar gratings hợp chất, Cage Ladders, cầu thang treads nosing, không chống trượt cầu thang trượt, bước rộng, vỏ lốp, Lan can, cấu hình, lý tưởng cho các sàn diễn thời trang, sàn nhà để xe đôi, bìa rãnh, mương, an toàn mở rộng Metal Grating, nặng nhiệm vụ Grip Strut Kênh, đục Air Lưới dòng chảy nhôm, Yard Ramp Edging Pedestal , Thanh Carbon với thanh răng cưa Thép, vách ngăn, vật liệu truyền thông hỗ trợ, lưới không khí, lan can, lưới nhiều lớp, phủ, lõm, gritted, minimesh, nhựa polyester chưa bão hòa, Palette Partition Doors Windows, Các thành phần, sàn kiến ​​trúc và sàn công nghiệp, hệ thống cầu vượt cho người đi bộ, ngưỡng cửa bến, hàng rào, ống tròn, đường ống, góc, lưới thép, hố đào, lớp phủ, bê tông polyurethane, đánh bóng, tự san phẳng bằng epoxy, lót sàn, sợi cacbon, , Vữa, chống thấm nước, xử lý nước thải, tháp làm mát ướt, cột, laminate, kim loại, nhôm hợp chất, rack, dây dẫn, skylight, polycarbonate, nhựa, acrylic, UPVC, ABS, PS, PC, PET kỳ lạ, tấm phẳng, mờ, chống ăn mòn UV ổn định, tấm trang trí trang trí, máng xối, mương, theo đơn đặt hàng của nhà chế tạo chuyên nghiệp, tấm lót nhúng nóng điện mạ kẽm, kẽm bằng đồng, cung cấp thực phẩm, trọng lượng trên m2 , Chi tiết, khoảng cách khoảng cách, cắt bảng tải, đại lý, công nghiệp, nhà cung cấp, xưởng đúc, sản xuất tại Trung Quốc, GMP, HACCP, ISO 1400, 900, FDA Approved

 

Chậu rửa chén bát Chậu rửa chén bát Chậu rửa bát đĩa Chậu rửa bát đĩa Chậu rửa bát đĩa Chậu rửa công nghiệp Hệ thống xử lý nước thải và hệ thống xử lý nước thải (5 Chỗ) รง, 2 ฝา บ่อ)
1. PP / ABS Grating ตะแกรง น้ำ ล้น รอบ สระ ว่า ย น้ำ ตะแกรง พลาสติก PP / ABS มี 2 ขนาด มาตรฐาน กว้าง 25cm. Và 30 cm. Có 2 điểm chất lượng cho phép sử dụng nhẹ lòng vào buổi sáng mà không có cảm giác hứng thú khi có dịp gặp vấn đề về những vấn đề có thể xảy ra trong thời gian không có xe buýt
2. PVC / PP / PE Nhựa GRATING Chậu nhựa tái tạo Chậu nhựa PVC / PP / PE Có 2 kích cỡ 25x100cm. Và 30x100cm. Tìm kiếm nâng cao Trang chủ Diễn đàn Hàng khuyến mại Laptop Sản phẩm Dmart Chuyên môn Giải trí Điện ảnh Âm nhạc Thời trang Đời sống SP
2- Tek! Hài hước Sáng tạo Học hành Chuyện lạ HDG. Lưới thép ตะแกรง เหล็ก เชื่อม ชุบ กั ล วา ไน ซ์ สำเร็จรูป เป็น ตะแกรง เหล็ก ชุบ mạ kẽm nhúng nóng ผลิต จาก เหล็ก แผ่น นำ มา เชื่อม เข้า กัน ด้วย ระบบ CO2 Robot ทำให้ เนื้อ เหล็ก หลอม กัน สนิท กว่า เชื่อม มือ แล้ว นำ ไป ชุบ HDG ข้อดี คือ รับ แรง Đã nhận được nhiều dữ liệu hơn so với các tệp tin khác là tập tin có ảnh và có số lượng lớn là 25x100cm. Và 30x100cm.
4. FRP GRATING Chiếc khăn lụa có thể được sử dụng để tạo ra một lớp vỏ bọc bằng sợi thủy tinh, UV Tươi Trẻ Em 50 – 100 Năm Thời Trang Tươi Thời Trang Túi Đựng Thời Trang Túi Xách เหมาะ ทำ แผ่น พื้น ยก ระดับ หรือ สามารถ สั่ง ได้ ทุก ขนาด ตาม ที่ ลูกค้า ต้องการ ได้ รับประกัน 3-5 ปี
5. dẻo Side Xả Grating ตะแกรง ดัก ขยะ คัน หิน ข้าง ฟุตบาท วัสดุ ตะแกรง ผลิต จาก เหล็กหล่อ เหนียว (Đúc sắt dẻo) ออกแบบ เพื่อ ใช้ เป็น Hình ảnh Khuôn xiếc Khung hình Khổ củ Xem lại theo yêu cầu của Khu Phức tạp Khuôn mẫu và Khu nghỉ Thăm Dò và Bãi đá. Small sizes 10x40cm. 15x30cm., 15x40cm., 20x57cm. Và 25x50cm.
6. gang dẻo Manhole bìa ฝา ปิด ท่อ เหล็กหล่อ เหนียว ผลิต จาก วัสดุ เหล็กหล่อ เหนียว (gang dẻo) ผลิต ตาม มาตรฐาน EN124 มี ผล ทดสอบ จาก สถาบัน รับรอง คุณภาพ ใน เมือง ไทย เลือก ได้ หลาย เกรด คุณภาพ ตั้งแต่ 2-40 ตัน มี ทั้ง รุ่น ที่ มี บานพับ และ ตัว ล็อค ป้องกัน ขโมย ติด ตั้ง และ บำรุง รักษา ง่าย ราคา ขาย 1 ชุด ประกอบด้วย ตัว ฝา พร้อม เฟรม
7. FRP Manhole bìa ฝา บ่อ พัก ไฟเบอร์ เสริม แรง พร้อม เฟรม ผลิต จาก วัสดุ ไฟเบอร์ เสริม แรง FRP ได้ า ต ร ฐาน EN124 ไม่ เป็น สนิม รับ แรง ได้ เหมือน เหล็กหล่อ เหนียว เลือก ได้ ตั้งแต่ 2-40 ตัน สวยงาม เข้า กับ ธรรมชาติ ไม่ เป็น ที่ นิยม ใน ตลาด รับ ซื้อ ของเก่า ไม่มี ปัญหา โดน ขโมย

1. Không phải là Rồng Không phải là loại keo không chịu nhiệt độ và sức chịu đựng của tia cực tím có khả năng cồn từ chất liệu như nước nóng, Borax, axit sulphu, chất độn và chất chiết xuất từ ​​sản phẩm Bảng
2 .jpg Using the job with 30 years based with the Usage of the Interviews of the Interviews of the Interpretation. Đạt được hiệu quả cao)
3. Thẩm mỹ viện có thể lựa chọn màu sắc phù hợp với các loại vải, da, xanh lá cây, xanh lá cây … Chất cách điện: ล่อ ฟ้า ป้องกัน ไฟฟ้า ดูด
4. น้ำหนัก เบา กว่า เหล็ก แต่ รับ แรง ได้ สูง เหมือน เหล็ก ทั่วไป จึง ทำให้ การ เคลื่อน ย้าย ติด ตั้ง และ บำรุง รักษา เร็ว และ ง่าย ขึ้น
5. ราคา ใกล้ เคียง กับ เหล็ก ล่อ สูง กว่า เหล็ก ชุบ กั ล วา ไน ซ์ แต่ FRP ไม่มี ปัญหา โดน ขโมย เนื่อง จาร ขาย ไม่ ได้ ใน ตลาด รับ ซื้อ ของเก่า ไม่ เป็น สนิม ไม่ กรอบ แตก จาก แสงแดด รังสี UV เหนียว ทน รับ แรง ได้ เหมือน เหล็ก น้ำหนัก เบา ตัด ให้ เข้า รูป ได้
6. Tẩy da chết có chứa các chất chống oxy hóa cao Chống nắng có chứa chất chống oxy hóa tốt Không có vấn đề gì khi nhìn xung quanh ความ ร้อน และ แสง UV ไม่ กรอบ แตก เหมือน พลาสติก ABS, PVC, แผ่น nhiều
7. ส ต๊ อ ค มากกว่า 5.000 ตรม. Sản phẩm được sản xuất với tiêu chuẩn chất lượng cao với
tiêu chuẩn EN124 với chất lượng đảm bảo 2-5 tuổi. แบบ กรณี มี ปัญหา เปลี่ยน ใหม่ ให้ ทันที
Tính năng FRP:
• trọng lượng nhẹ, độ bền cao, dễ dàng cài đặt và làm việc sửa chữa, cắt và khoan trên trang web
• Ăn mòn và chịu thời tiết (UV kháng), kháng với hầu hết các hóa chất
• không dẫn nhiệt hoặc điện Cũng bảo vệ cáp (chống nhiệt độ cao)
• Cung cấp thêm khả năng chống cháy cho cáp trong trường hợp lửa bên ngoài (Tự dập tắt Có khả năng)
CHANCON: Nhà phân phối và Nhà sản xuất từ ​​nhà máy trực tiếp. Phần lớn các sản phẩm của chúng tôi vượt trội về kỹ thuật / thiết kế kiến ​​trúc cho các sản phẩm FRP. Công ty cung cấp sản phẩm và dịch vụ FRP Grating, sản phẩm nước giải khát FRP, sản phẩm vệ sinh công nghiệp, DANH SÁCH SẢN PHẨM, DỊCH VỤ, THIẾT BỊ DỊCH VỤ, THIẾT BỊ DỊCH VỤ Nhà máy lọc dầu, nhà máy ngoài khơi, ngành dầu khí, đường hầm
Trụ sở chính | Bán buôn bán lẻ | Đăng ký đại lý bán hàng, đại lý, đại lý, nhà phân phối
CÔNG TY TNHH CHANCON www.chancon.co.th (bên phải Tháp đôi 2 bên đường qua 28/2) Bangkok Thailand Bangkok Thailand #Grating Line: 081 9327894 Tel: 02 4510780- 1, Fax: 02 4.510.786 E-mail: mkt@chancon.co.th
FaceBook: www.facebook.com/GratingThai, www.facebook.com/FrpFiberGrating.chancon, www.facebook.com/FrpGrating.ManholeCover
Youtube: http: //www.youtube.com/mktchancon, http://www.youtube.com/FRPGratingFiberglass, http://www.youtube.com/FRPGratingManhole |
Hệ thống rào chắn: www.GratingThai.com, http: // Thiết bị kiểm tra đường ống dẫn khí. Com | Http://FrpGratingThai.blogspot.com, http://hotdipgalvanized-steelgrating.blogspot.com, http://ChanconFiberGrating.wordpress.com | Twitter: https://twitter.com/GratingThai

GFRP-thép-nhựa-PPABS Bể tràn hàn thép Bar Grating / sợi thủy tinh composite đúc dẻo sắt cửa cống BÌA ฝา บ่อ ทึบ ปิด ท่อ พัก ครอบ ท่อ ราง ระบาย น้ำ ทิ้ง สำเร็จรูป ฝา ท่อ แมน โฮ ล เก ร ต ติ้ง / Neo Thiết bị gắn Sửa Clip Saddle Khóa kẹp Khóa chốt Fastenal Thép Grating / Curbed Drainage Grating Scupper / Cầu thang Tread Nose / Perforated Pegboard Hook Shelves Racking Công cụ Lưu trữ Bộ dụng cụ DIY: Bọc bằng thép không rỉ สนิม ตะแกรง ขยะ มูลฝอย ใน คัน หิน ค สล. Bao gồm các thiết bị gia đình và các thiết bị khác,

Trang chủ của Chancon-GratingThai | >> Công ty
Liên hệ & Thông tin || ติดต่อ สั่ง ซื้อ ขอ แผ่น ที่ อีเมล์ ไลน์ ตรวจ สอบ ราคา สินค้า คุณสมบัติ วิธี การ ตัด ติด ตั้ง ผล ทดสอบ     A. Liên hệ: ติดต่อ สั่ง ซื้อ แผนที่ รับ สินค้า ขอ คำ แนะนำ เพิ่มเติม     B. Giá-Báo giá: ราคา สินค้า ขอ ใบ เสนอ ราคา -Discount     C Các dự án tham khảo: Khách hàng sử dụng Cách Chọn Mua     D. Các tính năng của sản phẩm Tủ nhựa Vinyl Resin Thức ăn Thức ăn FRP     E. Grating Dịch vụ: Hóa chất     F. Đại lý Bán hàng Wanted: Yêu cầu dịch vụ đại lý Nhận đăng ký Bán hàng 

Lưới xả nước || Thảm cao su
    PP
    2. Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm Thép mạ kẽm สนิม สำหรับ ราง ระบาย น้ำ ทาง เดิน
    3. FRP sợi thủy tinh Khuôn Grating ตะแกรง ระบาย น้ำ ไฟเบอร์ ก ล๊า ส แผ่น ปู พื้น ทาง เดิน ใน โรงงาน
    4. ABS Bể tràn thoát nước Grating แผ่น ตะแกรง ระบาย น้ำ ล้น รอบ ขอบ สระ ว่า ย น้ำ เอ บี เอ ส พี VIN
    5. Lắp ráp lưới điện cao áp Lưới chà xát bụi xơ dừa bên dưới bờ rây (Leaf Trapper Side)
    6. Cây cảnh bảo vệ Lưới ráp khung ráp Khung khung Khung chắn Cây có cả dạng và tiếp theo

Nắp đáy || Màng phủ bọt Bồn rữa Ống
    thoát nước Bể Ống Nước Bồn Ống Nước Bể Ống Nước Bồn Ống Nước Bồn Ống Nước Bồn Ống Nước Bồn Ống Nước Bồn Ống Nước Bồn Ống Nước เล ส) 
    8. gang dẻo Manhole cover (Vòng / Square) ฝา ปิด ท่อ ฝา บ่อ พัก เหล็กหล่อ เหนียว ระบบ บำบัด น้ำ 
    9. FRP kim cương Top cover (Cut đặc biệt) ฝา ปิด บ่อ ครอบ ท่อ พัก ไฟเบอร์ ก ล๊า ส ชนิด สั่ง ตัด ตาม Thường có ngay 

Sản phẩm liên quan || แผ่น ปิด ผิว กัน ลื่น แผ่น ปิด จมูก
ขอบ มุม คิ้ว แผง ครอบ บันได ไฟเบอร์ ก ล๊า ส คลิป ล็อค ยึด จับ ตะแกรง   10. Egg Screen Crate trần แผง ระแนง บังตา หน้ากาก ตะแกรง กั้น ช่อง แสง บัง ไฟ กรอง ลม ระบาย อากาศ
  11. trần Trellis Shade Lưới ฉาก แผ่น ฝ้า เพดาน ผนัง ม่าน รั้ว ราว แผง กั้น พาร์ ทิ ชั่ น กันสาด ระแนง บังตา
  12. pegboard hiển thị Công cụ Móc Kệ แผ่น กระดาน เพ็ก บอร์ด เจาะ รู ติด ผนัง แขวน เก็บ อุปกรณ์ เครื่องมือ ช่าง
  13. FRP cầu thang Chiều rộng cơ sở đang sục sạo Bước Bìa Protector แผ่น ปิด จมูก ขอบ ม ม คิ้ว แผง ครอบ บันได กัน ลื่น ไฟเบอร์ ก ล๊า ส
  14. HDG thép Grating khóa kẹp kẹp fastener คลิป ล็อค ยึด จับ แผง ตะแกรง แส ตน เล ส / เหล็ก ชุบ ซิงค์ ทน สนิม
  15. Cốp pha Ties hệ thống: TieRod / ThreadBar เหล็ก รับ แรง ทน ดึง Cao WingNut WaterStopper 

Máy ép nhựa PVC PP ABS PE Bê tông nhựa Grating, tấm lát bằng thép tấm, mặt bên ngoài, tấm trải sàn, sàn gỗ và sàn nhà vườn, bể chứa cỏ, tấm trải giường bằng tấm trải giường Side outer side, facial roof, elephant, elephant, elephant, elephant, elephant, Có thể đưa ra và trang trí bằng đèn dầu bằng cách lắp thêm các tấm biển bằng đồ dùng cho các điểm tranh luận khác nhau và các điểm nổi bật khác ร้อน ไฟ กรด ด่าง เคมี, ประหยัด พลังงาน ปลวก เห็ด รา ไม่ ชอบ ไม่ บวมน้ำ ปราศจาก สาร พิษ ไม่ ลาม ไฟ , ไฟเบอร์ กลา ส หรือ ใย แก้ว ชนิด พิเศษ คือ อะไร , sở trường Siam SSG, Mỹ, Mỹ, Châu Á Thái Bình Dương, Fibergrate, Strongwell, Webforge, Job repair, Bột bê tông cốt thép, Bê tông nhựa, Bê tông, Bê tông, Bê tông, Bê tông, Bê tông, Bê tông, Bê tông , Đá cứng, PE cải tiến nhà máy thực phẩm, bếp khuếch đại, hóa chất công nghiệp, nhà máy, cơ sở công nghiệp, trạm sửa chữa, lắp ráp,  , อุปกรณ์, ฟ ล อ เดรน, รู ฟ เดรน, พื้น กัน สึก, กัน กระแทก, รางน้ำ ล้น รอบ ขอบ สระ ว่า ย น้ำ, แผ่น เรียบ, บานเกล็ด, แผ่น พื้น ยาง ปู รอบ แท่น เครื่องจักร, พา เลท, ถาด รอง, ชั้น วาง, พื้น โรงเรือน, ตัว หนอน บล็อค บล็อก ปู ถนน ตกแต่ง พื้น สนาม หญ้า สำเร็จรูป ปรับ เปลี่ยน ฮ วง จุ้ย
ตะแกรง ระบาย น้ำ พลาสติก สำเร็จรูป เหล็กหล่อ อ ลู มิ เนียม แส ตน เล ส ไฟเบอร์ ก ล๊า ส, ฝา บ่อ เหล็กหล่อ ครอบ ท่อ ระบาย น้ำ ทิ้ง สำเร็จรูป , F Màng PE-FIBERGLASS Thép GRATING, Dạng Cuộn Dạng Cuộn Dạng Cuộn MANHOLE COVER, Túi Treo Nước Tắm, Giàn Nước Lắp Rửa Lửa, Thép Khung Gầm Chứa, # nhà máy Cây lá mọc trên nền tảng của lớp

GFRP Composite Manhole Covers (www.congnghe.com) www.chancon.co.th GIẢI PHÁP CHUYÊN NGHIỆP TỐT NHẤT VÀ HƯỚNG D TON S</s>DỤNG L INSTP Đ INSTT: Vỏ ngoài trời ngoài trời Covers, Square, Rectangle, Circular Circular, Fabricated Simple Culvert Gully, Tile Strip Cel L Lò nướng máng xối nước, Lò nướng đun, Lò nướng bằng nhựa, Lò nướng đậy kín, Chân nâng bằng tay, Chậu rửa, Chậu rãnh thoát nước nhà vệ sinh, Lau chùi sạch, Lối thoát nước thoát hiểm, Hệ thống thoát nước, Nắp đậy nắp, Ống bị tắc, , Thay thế bằng thép không gỉ, gỗ xi măng WPC xơ xi măng, tấm Checkered vịt, phụ kiện, vệ sinh, nở hộp, remover, block khối xây gạch, drainer dish, mở kênh, tàu, van thông gió, lọc, bể bơi, bơm, tàu, thay thế bị ô nhiễm Khu vực, dẫn điện, khung chống ăn mòn, lưới, nước mưa Shooter nước, Thùng rác, Egg Crate huỳnh quang trần Grille chiếu sáng màn hình lọc Media Diffusers Panel, DIY Tóm tắt nhựa nguyên liệu Ban Aquarium Aquarium Pond, HVAC không khí véc tơ trở lại / đôi lệch Grid Louver
GFRP Composite Lò nướng đường ống chạy bằng thép, đường ống dẫn ống thoát nước, đúc bằng gang dẻo, lưới an toàn mở rộng, lưới kéo, Lò nướng Grip Strut Channel, Khoan nhôm luồng không khí có lỗ khoan, Lò nướng nâng cao Lầu mặt đường Lối đi bộ, Lề đường Sân Lề đường, Thanh xiên bằng thép thanh, Thép Khóa bị khoá Khóa Chì Saddle Chiều rộng của tấm chắn,  Bồn Đóng Gỗ Bêtông Bêtông, เก ร ต ติ้ง, เก รท ติ้ง, ฝา ตะแกรง เหล็ก แผ่น เชื่อม สำเร็จรูป, กรอบ ตะแกรง ปกป้อง รอบ โคน ต้นไม้
FRP Sản phẩm, GFRPS, sợi thủy tinh gia cố cốt thép Polymer, cốt sợi thủy tinh tấm, vật liệu xây dựng tổng hợp, vinyl ester nhựa, bollards gốc thân cây Tree hố điêu khắc an toàn đường bộ trong trang trí nội, ngoại thất sân vườn Lưới Big cây, cây vành đai bảo vệ Guard an toàn Grating Thớt Khung bìa cho người đi bộ, đường Street, đúc, pultrusion, hồ sơ pultuded, Che hàn Lưới hợp thanh chịu lực, Cage Thang, treads Cầu thang, không chống trượt Cầu thang, cầu thang trượt, cầu thang rộng, lề đường, lan can, lan can, kết cấu khung, Vôi, gritted, minimesh, phenolic, phổ biến, không bão hòa đa Ester resin, cửa sổ Palette Cửa sổ, nền tảng hoạt động, sàn chống cháy nổ, ý tưởng mới Thiết kế các phụ kiện thiết kế, các thành phần, sàn kiến ​​trúc và công nghiệp, hệ thống cầu vượt cho người đi bộ, sân thượng ngưỡng dock, hàng rào, ống tròn, ống tấm, góc, dây lưới, hố , thùng đựng nước thải, sơn, bê tông Polyurethane, đánh bóng, Epoxy tự san lấp mặt bằng, sàn lót, sợi carbon, sàn làm cứng, vữa, không thấm nước, xử lý nước thải, Wet tháp giải nhiệt, cột, tràn, Laminate, kim loại, nhôm Composites, rack, dây dẫn, skylight Nhựa, acrylic, UPVC, ABS, PS, PC, PET, PETG, tấm phẳng, mờ, Anti-UV ổn định, tờ trang trí rắn, máng xối, mương, theo đơn đặt hàng của fabricators chuyên nghiệp, Hot Dip Electroforge mạ kẽm, đồng thau , kẽm, cung cấp, Đại lý cấp thực phẩm, Công nghiệp, nhà cung cấp, Foundry, Made in China, GMP, HACCP, ISO 1400, 900, FDA chấp thuận, đặc điểm kỹ thuật, giá cả, Infosoft
ทาง เดิน แท่ง ราง ตัว ยู ร บาย น้ำ ทิ้ง ริม ขอบ ฟุตบาท, วาย เมท, วาย เม ช, ไว ร์ เม ช, พร้อม เฟรม, ช่อง ระบาย น้ำ, ลวด เหล็ก ฉีก พับ ฉลุ เจาะ รู, เหล็ก ยืด คาร์บอน ไฟเบอร์, ลาย ตีนเป็ด ไก่, ราง ระบาย น้ำ ฝน, ขั้น บันได Tầng hầm, tầng hầm, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ, sàn gỗ Warehouse Screws, Screws ว แขวน, ฉาก ฝา ผนัง เบา ม่าน โปร่ง ทึบ แสง รั้ว แผง พาร์ ทิ ชั่ น กั้น ห้อง ฝ้า ตกแต่ง เอนกประสงค์ กันสาด บังตา ระแนง บานพับ เฟี๋ ยม ซุ้ม ไม้ เลื้อย รับ ลม , ตาข่าย ป้องกัน คลุม นก, แผ่น กั้น ขับ ไล่ นก งู กระรอก, แผง แบ่ง กั้น Thực hiện các công việc thiết kế, lắp đặt và thi công các công trình xây dựng, thiết kế, thi công các công trình, Bảng điều khiển bảng điều khiển / Weatherboard / rèm vải / Trellis bóng râm, tấm che nắng, bảng phân chia màn hình màu nắng toàn cầu, lưới điều khiển chống chim, màn hình trang trí nhỏ, màn che trang trí điêu khắc mở trần ô tô Ứng dụng: văn phòng, phòng họp, siêu thị, trường học, hành lang , các công trình vệ sinh, bệnh viện, tái trang trí, ฉาก แผ่น ฝ้า เพดาน ผนัง ม่าน รั้ว ราว แผง กั้น พาร์ ทิ ชั่ น หลังคา กันสาด ระแนง บังตา ตะ ข่าย บานพับ เฟี้ยม ซุ้ม ไม้ เลื้อย กำแพง ฝาย ตะแกรง หวี ดัก แยก เศษ ขยะ ลอย ใส่ ช่อง ระบาย น้ำ ตรง ขอบราง ยู ด้าน ข้าง ริม ฟุตบาท, ส เป ค ตาม มาตรฐาน ของ เทศบาล กรม โยธา ธิ การ และ ผังเมือง กรม ทางหลวง ชนบท การ เคหะ แห่ง ชาติ การ ทางพิเศษ แห่ง ประเทศไทย , Trench đường lái xe thoát vỉ, màn hình bụi đường lái xe lưới gần footbath, Leaf trapper vỉ giao thông cống an toàn