Glassfiber is a material that provides a multitude of positive societal benefits. It can be customized by modifying its composition and altering the various forming and finishing processes used to manufacture the intended end product.
Since SDGEO’s establishment, we have dedicated ourselves to glassfiber, seeking at all times to develop new glass compositions and advanced technologies for melting, forming, processing, and evaluation.
Glassfiber that optimally meets the needs of customers with respect to characteristics, shape, grade, and precision is widely used in display devices, IT equipment, automobiles, buildings, and energy related fields, and the range of next-generation applications for this material continues to expand.
By producing new types of glass, we endeavor to ensure harmony with the environment and contribute to the development of a sustainable society.
The use of E-glass reinforcements allows customers to design high performance composites beyond the limits of the polymer material itself. SDGEO ECR glass fiber enables even higher composite performance. Compared with E-glass, composites based on ECR reinforcements have better mechanical properties including: tensile strength, elastic modulus, flexural strength, flexural modulus, shear strength and compressive strength. ECR Enhanced Glass Fiber has wide application fields in high performance composites, including: wind energy, high pressure vessels, geo-grids and sucker rods.
The SDGEO Technology Centers carry out R&D of basic and applied technologies for glass manufacturing. The R&D center primarily engages in material design, analysis and evaluation, and basic process analysis, focus on development of process and compound technologies to create glass with new functions and engages in product development and strength measurement of glass fiber products.
The SDGEO Technology Centers carry out R&D of basic and applied technologies for glass manufacturing. The R&D center primarily engages in material design, analysis and evaluation, and basic process analysis, focus on development of process and compound technologies to create glass with new functions and engages in product development and strength measurement of glass fiber products.
- Higher tensile strength, up to 20% higher than E-glass fiber
- Higher softening temperature, about 60 ℃ higher than E-glass fiber
- Raw materials containing no boron and no fluorine, to ensure clean production
- ECR glass is especially suitable for high pressure and high temperature applications. In addition, ECR maintains excellent electrical properties, including dielectric
constant and volume resistivity of E-glass.
The better stability of the development of glassfibers. The use of SMC sheets in aircraft vehicles can better reflect corrosion resistance and fatigue resistance.
BMC is a group -like touching plastic. The main research and development direction is to make the product's liquidity and decentralization better during use.
Fiberglass twisting process research and development: upper single silk initial twist, parallel, and lower -level stock line reverse twist, one step method completes the initial re -twisting process.
Glass fiber fine yarn twisted direction of Z twisted and S twisted;
There are single veil twisted or co -shaped yarn twisting;
The direction of the twisting of the yarn is from bottom to top, from right to left is S twisting;
From bottom to top, from left to right, Z to twist
Fiberglass roving in the pressure tank is controlled by each point of the lock reaction, automatic operation, small pressure fluctuation range, and safety and reliability
Hotline: +86 532 80995285
Phone: +86 18661968123
E-mail: info@sdgeo.com
Address:Taishan,shandong Province, China
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