Zirconium Carbide (ZrC) Powder

Zirconium Carbide (ZrC) Powder 

Purity ---  99.5%

Manufacturing Process

Raw material preparation ---> Material synthesis ---> Milling ---> Screening ---> Checking ---> Packing

Specifications

mesh<200mesh, mesh<150mesh

Applications

Zirconium Carbide Nanometer Powder ( ZrC Nano- Powder )

Purity ---99.5%     Oxygen content --- <1.0wt%

Color --- black       Morphology --- spherical Crystallographic form --- Cubic

Average particle size (D50) --- <60nm

Specific surface area --- 70m²/g

Apparent density ---  0.08g/cm³

Manufacture method --- Plasma arc vapor 

Application --- When the ZrC absorbs the lower 2 um wavelength short waves from sunlight, through transformation, it can store energy in the material. New thermal holding and adjusting heat textiles. Add the ZrC into the cross-section reformed of nylon chiffon, improve two degrees of the inter temperature more than normal nylon. So people like using this nylon producing sportswear.ZrC is one important high temperature structure materials with high melting point, high strength and anti-corrosion. The perfect feature make itself has large application room in head metal alloy field, which can improve the hardness, anti-corrosion property of hard metal alloy.

Our Advantage about Zirconium Carbide Powder (ZrC )

China rare metal material co.,limited (CRM) is an experter in manufacture Zirconium Carbide Powder as Coating material . All Zirconium Carbide Powder are manufacture by programs with  with the highest possible density and smallest possible average grain size.. 

CRM material co.,limited is specialized in making virous Powder. We have many raw material compounds line, such as semiconductor line, chemical compounds line, metallurgy line, powder milling line, etc. Moreover, we introduced many advanced technology and equipments from related companies at home and aborad. We also have an experienced research team who have developed many new and special pellets, and also successfully made many trial orders and received many customers satisfaction and long-term friendship. 

All Zirconium Carbide Powder are analyzed using best detection means including chemical analysis, Crystal phase microscope, x ray diffraction(XRD), X-Ray Fluorescence (XRF), Glow Discharge Mass Spectrometry (GDMS), and Inductively Coupled Plasma (ICP).

Reference Information about Zirconium Carbide (ZrC) Powder

ZrC is a important high temperature structure materials with high melting point, high strength and anti-corrosion. And it can absorb visible light, reflect infrared rays and store up energy efficiently. It also has anti high temperature, anti-oxidation, high strength, high hardness, good thermal conductivity, good toughness and so on.. 

strong covalent Zr-C bond gives this material a very high melting point (~3530 °C), high modulus (~440 GPa) and hardness (25 GPa). ZrC has a lower density (6.73 g/cm3) compared to other carbides like WC (15.8 g/cm3), TaC (14.5 g/cm3) or HfC (12.67 g/cm3). ZrC seems suitable for use in re-entry vehicles, rocket/scramjet engines or supersonic vehicles in which low densities and high temperatures load-bearing capabilities are crucial requirements.

Like most carbides of refractory metals, zirconium carbide is sub-stoichiometric, i.e., it contains carbon vacancies. At carbon contents higher than approximately ZrC0.98 the material contains free carbon. ZrC is stable for a carbon-to-metal ratio ranging from 0.65 to 0.98.

The group IVA metal carbides, TiC, ZrC, and SiC are practically inert toward attack by strong aqueous acids (HCl) and strong aqueous bases (NaOH) even at 100' C, however, ZrC does react with HF.

The mixture of zirconium carbide and tantalum carbide is an important cermet material.

Hafnium-free zirconium carbide and niobium carbide can be used as refractory coatings in nuclear reactors. Because of a low neutron absorption cross-section and weak damage sensitivity under irradiation, it finds use as the coating of uranium dioxide and thorium dioxide particles of nuclear fuel. The coating is usually deposited by thermal chemical vapor deposition in a fluidized bed reactor. It also has high emissivity and high current capacity at elevated temperatures rendering it as a promising material for use in thermo-photovoltaic radiators and field emitter tips and arrays.

It is also used as an abrasive, in cladding, in cermets, incandescent filaments and cutting tools.

Relation Products Zirconium Carbide (ZrC) Powder

Boron Carbide(B4C) Sputtering Targets;

Chromium Carbide (Cr3C2) Sputtering Targets;

Hafnium Carbide(HfC) Sputtering Targets;

Iron Carbide (Fe3C) Sputtering Targets;

Molybdenum Carbide (Mo2C) Sputtering Targets;

Niobium Nitride (NbC) Sputtering Targets;

Silicom Carbide (SiC) Sputtering Targets;

Tantalum Carbide (TaC) Sputtering Targets;

Titanium Carbide(TiC) Sputtering Targets;

Titanium Carbonitride (TiCN) Sputtering Targets;

Tungsten Carbide (W2C) Sputtering Targets;

Tungsten Carbide (WC) Sputtering Targets;

Tungsten Carbide Doped with Nickel (WC+Ni);

Tungsten Carbide Doped with Cobalt (WC+Co);

Vanadium Carbide (VC) Sputtering Targets;

Zirconium Carbide(ZrC) Sputtering Targets;

Relation Material

Zirconium Metal - Zr

Zirconium Aluminium alloy - ZrAl

Zirconium Boride - ZrB2

Zirconium Carbide - ZrC

Zirconium Copper Alloy - ZrCu

Zirconium Disilicide - ZrSi2

Zirconium Disulfide - ZrS2

Zirconium Diselenide - ZrSe2

Zirconium Iron Alloy - ZrFe

Zirconium Nickel Alloy - ZrNi

Zirconium Niobium Alloy - ZrNb

Zirconium Nitride - ZrN

Zriconium Oxide - ZrO2

Zirconium Silicon Alloy - ZrSi

Zirconium Ytterium Alloy - ZrY