Basalt Fiber VS E-glass Fiber |
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Items |
Basalt Fiber |
E-glass Fiber |
Breaking strength(N/TEX) |
0.73 |
0.45 |
Elastic Modulus(GPa) |
94 |
75 |
Strain point(℃) |
698 |
616 |
Annealing point(℃) |
715 |
657 |
Softening temperature(℃) |
958 |
838 |
Acid solution weight loss(soaked in 10%HCI for 24h, 23℃) |
3.5% |
18.39% |
Alkaline solution weight loss(soaked in 0.5m NaOH for 24h, 23℃) |
0.15% |
0.46% |
Water resistance (bolted in the water for 24h, 100℃) |
0.03% |
0.53% |
Thermal Conductivity(W/m.k GB/T 1201.1) |
0.041 |
0.034 |
Basalt fiber Products Information |
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Color |
Green/Brown |
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Average Diameter (μm) |
≈17 |
|
Average Length Composite Paper Bag(mm) |
≈6 |
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Moisture Content |
<1 |
|
L.O.l |
<2 |
|
Surface Treatment |
Silane |
Basalt fiber is suitable for industrial fiber-reinforced composite materials such as friction, sealing, road engineering, and rubber.
The performance of friction materials depends on the synergy between all raw materials. Our mineral fibres contribute to the mechanical and tribological performance of brakes. Increasing comfort by reducing noise (NVH). Improving durability and decreasing fine dust emissions by decreasing wear. Enhancing safety by stabilising friction level.
In the use of basalt fiber in cement concrete, very few fibers will be dispersed and agglomerated.
Basalt chopped continuous fiber not only has good stability, but also has many excellent properties such as electrical insulation, corrosion resistance, combustion resistance, and high temperature resistance. In addition, the production process of basalt fiber produces less waste and less pollution to the environment. After the product is discarded, it can be directly transferred to the ecological environment without any harm, so it is a veritable green.
● Zero shot content
● Good antistatic properties
● Fast dispersion in resin
● Excellent mechanical properties of products