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 Ceramic Reinforcing Materials TiC titanium carbide powder, Size:40nm, 100nm, 1-3um, 5um, 10um, 45um, Purity:99.9%, high quality, low price, fast delivery, please click it to check the specification.
Brand:
SAT NANOItem NO.:
CP2206-100NPayment:
TT, Paypal, WUProduct Origin:
ChinaColor:
Black PowderShipping Port:
Shenzhen, ShanghaiLead Time:
1-5daysMin Order:
100gSpecification of superhard titanium carbide nanopowder:
Shape:cubic
CAS No:12070-08-5
ENINEC No.:235-120-4
Appearance:black Powder
1. Nano titanium carbide, small particle size, uniform distribution, large surface area, high surface activity, high temperature resistance, oxidation resistance, high hardness, is an excellent refractory and wear-resistant material, widely used in cemented carbide, super hard and wear-resistant The above materials;
2. Nano titanium carbide has good conductivity and can be used as molten salt electrolysis electrode material and conductive electrical contacts;
3. Adding a sintering temperature of 200°C for titanium carbide ceramics can reduce the titanium carbide by one thousandth of a nanometer, and can refine the crystal grains and improve the sintering performance;
4. Nano-titanium carbide reinforcing phase can be used as a ceramic material. This metal effectively improves the mechanical properties and electrical conductivity of the ceramic matrix material.
Application of superhard titanium carbide nanopowder:
1 Titanium carbide used in nano aerospace parts: Considering the refractory carbide nano TiC, ZrC has a melting point higher than 3000 ℃, has excellent high temperature strength, and has good compatibility with tungsten, and has a similar thermal expansion coefficient. Has a much lower density than tungsten. As the W matrix temperature increases from brittleness to plastic, the unique temperature strength of the composite increases, so that the nano-TiC and ZrC particles have a more significant effect on the plastic W matrix at high temperatures, resulting in the composite having excellent high-temperature strength. TiC particles W non-stoichiometric ZrC matrix has better high temperature enhancement;
2. Titanium carbide ceramic foam: as a filter of ceramic foam, it can effectively remove the inclusions in various fluids. Its filtering and adsorption mechanism is stirring. The chemical stability of the filter material is required, especially the filter used in the metallurgical industry requires a high melting point. Therefore, most of these materials are oxides and must be adapted to molten metal filters. The main pursuit is to improve thermal shock resistance. Nano-titanium carbide ceramic foam has higher strength, hardness, thermal conductivity, electrical conductivity, heat resistance and corrosion resistance than oxide ceramic foam.
3. Transparent titanium carbide ceramics, which are widely used in the manufacture of wear-resistant materials, cutting tools, molds, metal crucibles and other fields, are good optical materials; titanium carbide abrasives and abrasive abrasive industries are substitutes for alumina, silicon carbide, and boron carbide. The traditional ideal material is chromium oxide abrasive; nano-titanium carbide abrasive, grinding wheel and ointment products can greatly improve the grinding efficiency, grinding accuracy and surface finish.
4 PM field: Nano titanium carbide powder, used in ceramic powder metallurgy production, raw materials for cemented carbide parts, such as wire drawing dies, cemented carbide tools. Nano-titanium carbide-based alloys have the following characteristics: (1) High hardness, generally up to HRA90 or more; (2) Good wear resistance and low wear rate; (3) Good heat resistance and oxidation resistance; (4) Thermal conductivity Good coefficient and good chemical stability.