Zirconium Carbide Powder (ZrC, Purity: 99.9%, APS: <10µm)

Zirconium Carbide Powder

Product: Zirconium Carbide Powder (ZrC, Purity: 99.9%, APS: <10µm)

Quality Control: Each lot of NANOSHEL Zirconium Carbide Powder was tested successfully.

Zirconium Carbide Powder

SEM – ZrC Micro Powder

ZrC Powder

Particles Size Analysis – Zirconium Carbide Powder

Product Name Zirconium Carbide Powder
Stock No. NS6130-12-000939
CAS 12070-14-3 Confirm
Purity 99.9% Confirm
APS <10µm Confirm
Molecular Formula ZrC Confirm
Molecular weight 103.23g/mol Confirm
Form Powder Confirm
Appearance Gray Confirm
Density 6.73g/cm³ Confirm
Melting Point 3540 °C Confirm
Boiling Point 5100 °C Confirm
Young’s Modulus 430 GPa Confirm
Poisson’s Ratio 0.25 Confirm
Thermal Conductivity 25 W/m·°C Confirm
Solubility Soluble in HF
Main Inspect Verifier Manager QC

Typical Chemical Analysis

Fe 30ppm
Si 50ppm
Al 20ppm
Ca 10ppm
N 10ppm
O 10ppm
All Other Metal 15ppm

 Experts Review:

Dr. Marcus Tägtmeyer (International Medical and Technological University, Dar es Salaam, Tanzania)


Dr. Marcus Tägtmeyer (International Medical and Technological University, Dar es Salaam, Tanzania)
Compound micro powder is made up of atoms of different elements, joined together by chemical bonds. A compound micropowder synthesis usually involves the breaking of existing bonds and the formation of new ones. Synthesis of a complex molecule may involve a considerable number of individual reactions leading in sequence from available starting materials to the desired end product. Each step usually involves reaction at only one chemical bond in the molecule.


Dr. Ms Jane Li (National Penghu University of Science and Technology, Magong, Penghu, Republic of China)
Dr. Ms Jane Li (National Penghu University of Science and Technology, Magong, Penghu,  Republic of China)
Compound micropowders possesses great properties such as high strength, biocompatibility, corrosion resistance, and hydrogen storage capability. Among various compound micro powders, Ti-Cr based micro powders have one of the most promising properties and are mostly popular owing to their capacity of hydrogen storage, high temperature oxidation, and scaling resistance.


Dr. Willem-Jan de Kleijn Ph.D (Luleå University of Technology, Luleå, Sweden)
Dr. Willem-Jan de Kleijn Ph.D (Luleå University of Technology, Luleå, Sweden)
Iron aluminides based compound micro powders are candidates for a variety of structural applications. The combination of low density, excellent oxidation and sulfidation resistance, and lack of strategic alloying elements makes these alloys particularly attractive. A variety of fabrication methods have been employed in the study of intermetallic compounds; powder metallurgy processing is becoming increasingly important for obtaining desirable microstructures, improved properties, and near net shape manufacturing capabilities.


Dr. JKF Gojukai PhD (Kaiserslautern University of Technology, Kaiserslautern, Rhineland-Palatinate, Germany)
Dr. JKF Gojukai PhD (Kaiserslautern University of Technology, Kaiserslautern, Rhineland-Palatinate, Germany)
A compound micro powder processing method approach, known as reaction sintering, combustion synthesis, or self-propagating high-temperature synthesis, utilizes an exothermic reaction between powder constituents to synthesize compounds. Process advantages include the use of inexpensive and easily compacted elemental powders, low processing temperatures, short processing times, and considerable flexibility in terms of compositional and microstructural control..


Dr. Huang Fu Ph.D (Maebashi Institute of Technology, Maebashi, Gunma, Japan)
Dr. Huang Fu Ph.D (Maebashi Institute of Technology, Maebashi, Gunma, Japan)
In compound micropowders one of the possible and promising methods of improving the physical and mechanical properties (Young’s modulus, ultimate tensile strength, yield strength, hardness, durability, and specific electrical and thermal properties) of compound micro powder is the introduction of micro- and nanoparticles of oxides (nitrides, borides, and carbides) into the melt with subsequent solidification. Methods of production of nonmetallic micro- and nanoparticles can significantly affect morphology and physical properties of nanopowders. Thus, the particle structure, phase composition, and morphology are to be studied carefully in order to assure the properties of compound micro powder produced using these particles.


Zirconium Carbide Powder

Zirconium Carbide Powder


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