2019 High quality Low Thermal Conductivity Quartz Belt - Quartz fiber yarn – Shenjiu
2019 High quality Low Thermal Conductivity Quartz Belt - Quartz fiber yarn – Shenjiu Detail:
product description:
Shenjiu quartz yarn is a continuous long fiber made of high-purity silica and natural quartz crystal. Its SiO2 content can reach more than 99.95%. It is currently a flexible inorganic fiber material with the lowest dielectric performance and the highest temperature resistance. Alkali glass fiber, high silica, basalt fiber, etc., can partially replace aramid fiber, carbon fiber, etc., has a unique advantage in the field of ultra-high temperature and aerospace; in addition, the linear expansion coefficient of quartz fiber is small, and has an elastic modulus A rare feature that increases with increasing temperature. Hollow quartz fiber yarn (SJ103) made by special process is also available.
Features:
1. Excellent dielectric properties: dielectric constant is only 3.74, dielectric loss is only 0.0002, is an excellent wave-transmitting material.
2. Ultra-high temperature resistance: long-term use temperature 1050 ~ 1200 ℃, softening point temperature 1700 ℃, thermal shock resistance, longer service life.
3. Low thermal conductivity: The coefficient of thermal expansion is small, only 0.54X10-6 / K, which is one tenth of ordinary glass fiber, which is both heat-resistant and heat-insulated.
4. High strength: No micro-cracks on the surface, the tensile strength is up to 6000Mpa, which is 5 times that of high silica fiber, 76.47% higher than that of E-glass fiber.
5. Good insulation performance: at 20 ℃ ~ 1000 ℃, the resistivity is 1X1018Ω · cm ~ 1X106Ω · cm, the electric group rate is high, it is a good insulating material.
6. Stable chemical properties: It can resist long-term quartz acidic, alkaline, high temperature, cold, stretching and other bad working conditions, and is resistant to corrosion.
Product application range:
1. Wave-transmitting materials (missiles, aircraft satellite radomes, electronic countermeasures);
2. Stealth materials (aircraft, missiles, drones, fighters, bombers, ships, submarines, etc.);
3. High-performance circuit board (high-frequency circuit board, high-speed circuit board);
4. Ablation-resistant materials (spacecraft thermal protection materials, missile exhaust pipes);
5. High temperature resistance and heat insulation (fire protection for aircraft engines, fuselages, semiconductors, optical fiber manufacturing);
6. High temperature resistant catalyst carrier material (vehicle exhaust gas treatment, industrial air purifier);
7. Glass manufacturing (insulation materials for glass and automobile glass tempering furnaces);
8. High temperature and false bone reinforcement materials;
9. Tooth post and false bone reinforcement
10. Replace high silica fiber, ceramic fiber, glass fiber, etc.
Product Specifications:
Monofilament diameter μm | 7.5、9、11、13 |
Density tex | 50、72、95、133、190、195、220、360 |
Product detail pictures:
Related Product Guide:
We stay with our company spirit of "Quality, Performance, Innovation and Integrity". We goal to create more value for our clients with our abundant resources, advanced machinery, experienced workers and superb solutions for 2019 High quality Low Thermal Conductivity Quartz Belt - Quartz fiber yarn – Shenjiu , The product will supply to all over the world, such as: Ethiopia, Grenada, Indonesia, They are sturdy modeling and promoting effectively all over the world. Never ever disappearing major functions within a quick time, it's a have to for you of fantastic good quality. Guided by the principle of Prudence, Efficiency, Union and Innovation. the corporation. ake an excellent efforts to expand its international trade, raise its organization. rofit and raise its export scale. We are confident that we are going to have a bright prospect and to be distributed all over the world in the years to come.
By Marguerite from Kenya - 2017.03.28 16:34
The company comply with the contract strict, a very reputable manufacturers, worthy a long-term cooperation.
By Stephen from Manila - 2018.12.10 19:03