Product Properties
Silicon Carbide Whisker (beta SiC, 99+%)
SiC Fiber Contents: beta- SiC>99+%, Free Carbon <0.05%
SiC Fiber Average Diameter: 0.1~0.8 um
SiC Fiber Length: 2.0-60 um
SiC Fiber Crystal Type: Beta
SiC Fiber Decomposition Temperature: 2973 k
SiC Fiber Thermal Expansion Coefficient: 6.58x10-6 at 373k
2.98x10-6 at 1173k
SiC Fiber Compressibility Coefficient: 0.21x10-6
SiC Fiber Density (288k): 3.216 g/cm3
SiC Fiber Hardness: 9.5 Mohs
SiC Fiber Tensile Strength: 20.8 GPa
6880XH Silicon Carbide Fiber MSDS for Download
Health and Safety
Hazard Statements | N/A |
Transport Information | N/A |
Suggest equipment | Eyeshields, Gloves, type N95 (US), type P1 (EN143) respirator filter |
Silicon Carbide( SiC ) Nanopowder General Description
A grey-white powder composed of silicon carbide particles with diameters averaging 40nm. This material is known for its stability, refractory properties,
wear resistance, thermal conductivity, small thermal expansion co-efficient, and resistance to oxidation at high temperatures. These traits make it ideal
for applications across a wide range of domains, with more being uncovered by the research of academics and engineers with each passing year.
Silicon Carbide( SiC ) Nanopowder Application
• Ceramics. This nanopowder is used extensively in the production of high frequency ceramic, heat resistant ceramic parts, textile ceramics,
and various other ceramic materials.
• Abrasives. This material can be used to produce various abrasive surfaces and substances, including polishing abrasives, the surfaces of grinding
tools, actual grinding materials, and related products.
• Heat-resistant devices. High-temperature spray nozzles such as those used in aeronautics, heating elements, sealing valves, and other
mechanical products intended to resist extreme temperatures utilize this material in their construction.
• Rubber production. Rubber tires and other rubbers exposed to high temperatures and large amounts of wear take advantage of the
properties of this nanoparticle.
• Specialty coatings. Like many nanomaterials, silicon carbide can be used to produce countless specialty coatings, imparting some or all
of its traits to the coated surface. Applications of this nature include abrasive surfaces, mirror coatings for UV resistance, and many others.