Jushi Group mainly produces medium-alkali and alkali-free glass fibers and their products. The main products are: medium and alkali-free glass fiber rovings, chopped strands, continuous mats, knitted composite mats and chopped strand mats, emulsion type and powder type short strands. There are more than 20 categories and nearly 500 specifications and varieties for reinforced glass fiber products such as cut mat and square cloth, as well as electronic-grade glass yarn and glass fiber cloth. Products are sold to nearly 30 provinces and cities across the country, and are exported to more than 60 countries and regions in North America, the Middle East, Europe, Southeast Asia, and Africa.
The use of boulder fiberglass is very wide. As functional and structural materials, reinforced glass fiber products can be used in the manufacture of various types of materials, pipes, pressure vessels, chemical storage tanks, sanitary ware, electrical, ship hulls, auto parts, sports equipment, etc.; electronic grade glass fiber products are available It is used in the production of printed circuit boards and is the basic material of various information processing equipment.
3B-the fibreglass company is a leading developer and supplier of glass fibre products and technologies for the reinforcement of thermoplastic and thermoset polymers. We operate 3 state-of-the art manufacturing facilities located in Battice (Belgium), Birkeland (Norway) and Goa (India) as well as a dedicated R&D Centre in Battice (Belgium) and a Customer Service Centre in Brussels (Belgium, at the very heart of Europe). Our products are designed and optimized to serve the automotive industry, the wind industry and to be incorporated in performance composites.
Taishan Fiberglass Co., Ltd. (hereinafter referred to as "Taishan Fiberglass" or "Company") is a subsidiary of Sinoma Technology Co., Ltd. (stock abbreviation: Sinoma Technology, stock code: 002080) under the jurisdiction of China National Building Materials Group The subsidiary is a large state-owned enterprise mainly engaged in the research and development, production and sales of glass fiber and products. In 1997, the first domestic 10,000-ton alkali-free glass fiber pool kiln wire drawing production line was built, filling the domestic gap. At present, the total production capacity of glass fiber products has reached a scale of one million tons, making it one of the three largest glass fiber manufacturers in the world and one of the two largest glass fiber manufacturers in China.
Chongqing Polycomp International Corp. (CPIC) is a large state-owned enterprise integrating R&D, production and sales of fiberglass products. CPIC mainly produces high-quality alkali-free fiberglass and glass fabric series products. CPIC was established in 1991. The former is Chongqing Fiberglass Factory established in 1971. Yuntianhua Group Co., Ltd. made investment in 1999 and now becomes the major shareholder. CPIC has the total assets of more than RMB 10 billion and more than 6,000 employees. CPIC has established production bases in Chongqing, Shanghai, Zhuhai, Changzhou, Brazil and Bahrain. The annual capacity of fiberglass exceeds 600,000 t, and that of glass fabric reaches up to 150 million meters. CPIC has 4 sales subsidiaries respectively in North America, Europe, Russia and Hong Kong.
Fiberglass or fibreglass is a common type of fiber-reinforced plastic using glass fiber. The fibers may be randomly arranged, flattened into a sheet called a chopped strand mat, or woven into glass cloth. The plastic matrix may be a thermoset polymer matrix—most often based on thermosetting polymers such as epoxy, polyester resin, or vinyl ester resin—or a thermoplastic.
Cheaper and more flexible than carbon fiber, it is stronger than many metals by weight, non-magnetic, non-conductive, transparent to electromagnetic radiation, can be molded into complex shapes, and is chemically inert under many circumstances. Applications include aircraft, boats, automobiles, bath tubs and enclosures, swimming pools, hot tubs, septic tanks, water tanks, roofing, pipes, cladding, orthopedic casts, surfboards, and external door skins.
Other common names for fiberglass are glass-reinforced plastic (GRP), glass-fiber reinforced plastic (GFRP) or GFK (from German: Glasfaserverstärkter Kunststoff). Because glass fiber itself is sometimes referred to as "fiberglass", the composite is also called fiberglass reinforced plastic (FRP).
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. 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 reliant on the combined performances of both the resin (AKA matrix) and fibers. For example, in severe temperature conditions (over 180 °C), the resin component of the composite may lose its functionality, partially due to bond deterioration of resin and fiber. However, GFRPs can still show significant residual strength after experiencing high temperatures (200 °C).
Today, a lot of materials are being used in the manufacturing of fiberglass, which is essential for both functionality as well as ending product strength. We hope that our article helped you decide which manufacturer you will choose for your business. For more information, you can contact the experts.
ASK YOUR GLASS FIBER EXPERT We assist you in finding the most suitable fiberglass to provide quality products on time and on budget