CAS 7440-05-3 Pd nanopowder Ultrafine Palladium as catalyst
Size:20-30nm Purity:99.95% CAS No:7440-05-3 ENINEC No.:231-115-6 Appearance:black Powder Shape:spherical
13929258449
Size:20-30nm Purity:99.95% CAS No:7440-05-3 ENINEC No.:231-115-6 Appearance:black Powder Shape:spherical
We can supply different size products of niobium silicide powder according to client's requirements. Size:1-3um; Purity:99.5%;Shape:granular CAS No:12034-80-9;ENINEC No.:234-812-3
Ni2Si particle,99.5% purity,granular shape,is used for Microelectronic integrated circuit, nickel silicide film,etc. Size:1-10um; CAS No:12059-14-2;ENINEC No.:235-033-1
Buy silicon carbide nano particle as additive for composite material, Size:50nm, 100nm, 1-3um, 5um, 10um, Purity:99%, fast delivery, good price, high quality, please click it to check the specification.
Brand:
SAT NANOItem NO.:
CP1406P-50NPayment:
TT, Paypal, WUProduct Origin:
ChinaColor:
Green PowderShipping Port:
Shenzhen, ShanghaiLead Time:
1-5daysMin Order:
1kg
Application of silicon carbide nanoparticle:
For silicon carbide, the Mohs hardness of nanoparticles is about 9.2, which is a hard material. SiC nano powder has hardness and is suitable as an additive for composite materials and improves its toughness and strength.
SiC nano additives have different effects on the relative density, hardness, conductivity and friction and wear properties of composite materials. Generally, the relative density of composite materials decreases as the content of nano-SiC particles increases. The hardness of the composite material increases as the content of SiC nanoparticles increases, but when the nano SiC particles agglomerate, the hardness increases. However, the influence of the content of silicon carbide nanopowder on the conductivity of the material is opposite. When the content of SiC nanoparticles increases, the electrical conductivity of the composite material decreases. According to some studies, when the content of SiC particles is about 0.5%-3%, the wear rate of the composite material decreases as the content of SiC increases. When the SiC content is greater than 3%, the wear rate of the composite material increases with the increase of the SiC nanoparticle content. With the increase of SiC content, abrasive wear and friction coefficient decrease.
Specification of silicon carbide nano particle:
CAS No:409-21-2
ENINEC No.:206-991-8
Appearance:green Powder
Shape:cubic
Size:50nm, 100nm, 1-3um, 5um, 10um