Zirconium carbonide (ZrC), a refractory ceramic that has a high hardness, is used commercially to make tooltips. It's usually used for sintering.
Particle Size: 325mesh
Zirconium Carbide Pulver:
Zirconium carbide ZrC
It is used commercially to cut tooltips. It is often sintered.
It is hard.
Temperature is 5100degC 6.70 g/cm3. Mohs hardness ranges from 8-9 Is insoluble with cold water and hydrochloric acids. It dissolves in hydrofluoric and hot concentrated sulfuric, containing either nitric acid (or hydrogen peroxide). At high temperatures, it reacts with chlorine to make zirconium trichloride. At 700degC it can burn in the air to create zirconia. You should not mix it with water.
It is a powder of gray metal with cubic crystal structures. High resistance to corrosion. These interstitial transition metal carides of group IV are members of the ultra-high temperatures ceramics (UHTC). ZrC's thermal conductivity is 20.5 W/m*K, and its electrical conductivity (resistivity at 43mO*cm) are both similar to zirconium. Due to the strong ZrC covalent bond, ZrC has a high melting temperature (3530degC), high module (440 GPa), as well as a low hardness (25 GPa). ZrC's density is 6.73g/cm3 lower than that of other carbides, such as TaC (14.75 g/cm3) and HfC (12.67g/cm3). ZrC appears to be suitable in reentry, rocket/hyperjet and supersonic aircraft where high density is a critical requirement.
As with most carbides from refractory materials, zirconium carbonide is substoichiometric. It contains carbon vacancies. If the content of carbon exceeds ZrC0.98, it is considered free carbon. Between 0.65 and 0.98, the ZrC-to-carbon ratio to metal is stable.
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Zirconium Carbide Nanoparticles Nano ZrC Pulse Product Performance:
Zirconium carbonide nanoparticles, CAS 12070-14-3, have high purity, fine particle size, uniform distribution and high specific surface activity. High melting point, high strength, and corrosion-resistant high temperature structural material is Nano ZrC. This powder can absorb visible light efficiently, reflect infrared, and store energy.
Technical Parameter: Zirconium Carbide Nanoparticles NanoZrC Pulp:
It is simple.
Zirconium Carbide ZrC Powder
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Zirconium Carbide Nanoparticles
Zirconium carbonide can be made in many different ways. A carbothermal reaction is achieved by zirconia with graphite. This produces powder. By sintering ZrC at temperatures higher than 2000°C, dense ZrC is possible. ZrC powder can also be hot pressed to lower its sintering temperatures, resulting in fine ZrC particles. Full-density ZrC can be made by spark plasma sintering.
You can also make zirconium carbide using solution-based processes. It is done by heating the metal oxide in acetylacetone.
Chemical vapor deposition (CVP) is another method of manufacturing. It is possible to heat the zirconium sponge, and also decompose the gas halide.
ZrC cannot be used if it has a lower oxidation rate than 800degC. The preparation of composite materials is one way to increase the resistance to oxidation for ZrC. ZrC/ZrB2 is the preferred composite material. These composite materials are capable of working at temperatures above 1800 degrees Celsius. This situation can be improved by using another material, such as TRISO fuel particles as a barrier.
Zirconium Carbide ZrC Powder:
Zirconium carbide is a type of high melting material that has high hardness, excellent heat refractory and high hardness. This material is commonly used to make alloy steel. Also used to make zirconium tetrachloride or zirconium trioxide. Zirconium carbonide can be used in an incandescent filament. It's primarily used now as an abrasive. This can be used to make cemented carbide.
Zirconium carbonide is a ceramic hard material that can be used for cutting. The zirconium carbonide (ZRC), which is made by sintering has high temperatures oxidation resistance and high strength. It also exhibits high thermal conductivity, toughness, and high toughness. Additionally, nanopowders of zirconium carbonide (ZrC), exhibit high visible light absorption, great infrared reflection, and have large energy storage capabilities.
As refractory coats in nuclear reactors, ZrC is not used. This material is much less susceptible to radiation damage and has a lower neutron absorption. You can use it as a protective coating on uranium dioxide, OR dioxide particles and nuclear fuel. The superheated chemical vapor desposition of coatings is usually done in a fluidized-bed reactor. The material has excellent emissivity at high temperatures and high current capacities, which makes it ideal for use in thermo-photoelectric heaters, field emitter tips, and arrays.
These cemented carbide compound can be used to drill and make other tools with wear resistance because of their hardness. Zirconium carbide, also known as ZrC (zirconium carbide), is a highly-common high-temperature material that has high melting points and excellent strength. This material can be strengthened and resistant to corrosion by using cemented carbide.
Zirconium carbide nanoparticles may be used in the aerospace, chemical and metallurgical industries. The textile industry can use it to produce nylon, fiber and carbonide thermostatic textiles. They are also used in composites for metal and ceramic substrates.
Transport and packing of Zirconium Carbide Nanoparticles Nano ZrC Pulp:
There are many options for packing, which all depend on the quantity of zirconium nanoparticles.
Zirconium carbide nanoparticles packing:
You can vacuum pack 1kg/bag or 25kg/barrel.
Shipment of Zirconium Carbide Nanoparticles
After receipt of payment, items may be shipped by sea or air as soon as they are possible.
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We can provide high-quality zirconium carbonide powder. Please contact us to send us an inquiry. (