Silicon carbide nanopowder, grade PJ

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Shape: cubic, hexagonal, fragmental, single fibers
Particle size full range: 5 - 250 nm
Average particle size: 25 - 50 nm
Specific surface: > 18 m2/g
Bulk density: 0,23 - 0,35 g/cm3
Hexagonal, 98%, (a = 3,082 Å, b = 3,082 Å, c = 15,1006 Å)
Hexagonal, 2%, (a = 3,082 Å, b = 3,082 Å, c = 37,70 Å)
Purity: > 98,6%; Al < 0,03; Mg < 0,03; Na < 0,03; Fe < 0,1; Cu < 0,4; W < 0,2%

Weight
Quantity

Shape: cubic, hexagonal, fragmental, single fibers
Particle size full range: 5 - 250 nm
Average particle size: 25 - 50 nm
Specific surface: > 18 m2/g
Bulk density: 0,23 - 0,35 g/cm3
Hexagonal, 98%, (a = 3,082 Å, b = 3,082 Å, c = 15,1006 Å)
Hexagonal, 2%, (a = 3,082 Å, b = 3,082 Å, c = 37,70 Å)
Purity: > 98,6%; Al < 0,03; Mg < 0,03; Na < 0,03; Fe < 0,1; Cu < 0,4; W < 0,2%

Literature:

1. Sheng-Chang Wang and Wen-Cheng J. Wei, Electrokinetic Properties of Nanosized SiC Particles in Highly Concentrated Electrolyte Solutions, J. Am. Ceram. Soc., 84 [7] 1411–14 (2001)

2. Sheng-Chang Wang, Wen-Cheng J. Wei, Kinetics of electroplating process of nano-sized ceramic particle/Ni composite, Materials Chemistry and Physics 78 (2003) 574–580

3. Vitaliy Datsyuk · Milana Lisunova · Maria Kasimir · Svitlana Trotsenko · Kati Gharagozloo-Hubmann · Izabela Firkowska · Stephanie Reich, Thermal transport of oil and polymer composites filled with carbon nanotubes, Appl Phys A (2011) 105:781–788

4. Sheng-Chang Wanga1 and Wen-Cheng J. Wei, Characterization of electroplated Ni/SiC and Ni/Al2O3 composite coatings bearing nanoparticles, Journal of Materials Research / Volume 18 / Issue 07 / 2003, pp 1566-1574

Reference PL-PJ-SiC