BASALT FIBER MATERIALS
TECHNOLOGY DEVELOPMENT Basalt Continuous Fiber
Page 1 of 3 BASALT CONTINUOUS FIBER BASIC CHARACTERISTICS and ADVANTAGES.
|
Capability | CBF | E-glass fiber | S-glass fiber | Carbon fiber |
---|---|---|---|---|
Tensile strength, MPa
|
3000~4840 | 3100~3800 | 4020~4650 | 3500~6000 |
Elastic modulus, gPa
|
79.3~93.1 | 72.5~75.5 | 83~86 | 230~600 |
Elongation at break, %
|
3.1 | 4.7 | 5.3 | 1.5~2.0 |
Diameter of filament, mµ
|
6~21 | 6~21 | 6~21 | 5~15 |
tex
|
60~4200 | 40~4200 | 40~4200 | 60~2400 |
Temperature of application, °Ñ
|
-260~+600 | -50~+380 | -50 +300 | -50~+700 |
Price, USD/kg
|
2,5-3.0 | 1,1 | 1,5-2.5 | 30-50 |
Strength-to-weight ratio of a basalt fiber exceeds strength of alloyed steel 2.5 times, strength of fiber glass – 1.5 times.
Continues Filaments’ diameter, µm
|
5.0 | 6.0 | 8.0 | 9.0 | 11.0 |
---|---|---|---|---|---|
Breaking strength-to-weight ratio of elementary fibers,kg/mm²
|
215 | 210 | 208 | 214 | 212 |
Diameter of elementary fibers, µm | Tex | Breaking strength, N |
---|---|---|
10 | 600 | 400 |
10 | 1200 | 700 |
Unlike metal, BCF is not affected by corrosion. Unlike fiber glass, BCF is not affected by alkali. BCF possess high corrosion and chemical durability qualities towards corrosive mediums, such as salts and acids solutions and, especially, alkalis.
Diameter of elementary fibers , µm | H2O | 0.5 n NaOH | 2 n NaOH | 2 n HCl |
---|---|---|---|---|
17 | 99.63 | 98.3 | 92.8 | 76.9 |
12 | 99.7 | 98.9 | 90.7 | 49.9 |
9 | 99.6 | 94.6 | 83.3 | 38.8 |
A range of temperatures for long-time application of BCF is 200~600 0C.
Short-term impact of temperatures – up to 700 0C; single impact of temperatures – up to 1000 0C.
High compatibility of BCF with other materials (metals, plastic, glues) during producing process.
Materials made on BCF basis can be processed with application of different “cold” technologies, such as moulding, winding, pultrusion, sputtering, etc.
See article. Prospects of application of materials made from basalt fibers