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Nanopowder Compounds

Stock No.
NS6130-02-209
CAS
409-21-2
MSDS
MSDS-PDF
Specifications
SPEC-PDF
COA
COA-PDF
Catalogue
MSDS pdf

Silicon Carbide Nanoparticles

(SiC, Beta, Purity: 99.9%, APS: 45-65nm)
Silicon Carbide Nanoparticles
Available Pack Size: 10Gms, 25Gms, 50Gms, 100Gms, 250Gms, 500Gms, 1Kg & Bulk orders
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Silicon Carbide
ProductSilicon Carbide Nanoparticles
Stock No.NS6130-02-209
CAS409-21-2Confirm
APS45-65nmConfirm
Purity99.9 %Confirm
Molecular FormulaSiCConfirm
Molecular Weight40.1g/molConfirm
FormPowderConfirm
Crystal TypeBetaConfirm
ColorGray Green/BlackConfirm
Density3.2 g/cm³Confirm
Melting Point2730 °CConfirm
SolubilityInsoluble in water
Quality ControlEach Lot of Silicon Carbide Nanoparticles was tested successfully
Main Inspect VerifierManager QC

Typical Chemical Analysis

Assay99.9 %
Other Metal800 ppm

Expert Reviews

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Dr. Myron Rubenstein Ph.D (Polytechnic University of Turin, Italy)

Silicon Carbide Nanoparticles: Silicon carbide (SiC) is composed of tetrahedral (structure) of carbon and silicon atoms with strong bonds in the crystal lattice. This produces a very hard and strong material. Silicon carbide is not attacked by any acids or alkalis or molten salts up to 800°C. In air, SiC forms a protective silicon oxide coating at 1200°C and is able to be used up to 1600°C. The high thermal conductivity coupled with low thermal expansion and high strength gives this material exceptional thermal shock resistant qualities.

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Dr. Huojin Chan  (University of Science and Technology of China, Hefei, Anhui, China)

Silicon Carbide Nanoparticles: Silicon carbide ceramics with little or no grain boundary impurities maintain their strength to very high temperatures. Chemical purity, resistance to chemical attack at temperature, and strength retention at high temperatures has made this material very popular as wafer tray supports and paddles in semiconductor furnaces. The electrical conduction of the material has lead to its use in resistance heating elements for electric furnaces, and as a key component in thermistors (temperature variable resistors) and in varistors (voltage variable resistors).

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Dr. Ms. Yi Yen Shi  (King Mongkut’s University of Technology Thonburi,Bangkok, Thailand)

Silicon Carbide Nanoparticles: SiC whiskers, which are nearly single crystals, are produced (grown) using different methods, including the heating of coked rice hulls, reaction of silanes, reaction of silica and carbon, and the sublimation of SiC powder. In some cases a third element used as a catalyst, such as iron, is added to the reacting materials to facilitate the precipitation of the SiC crystals. In this arrangement, the mechanism for the SiC whisker growth is called the vapor liquid-solid (VLS) mechanism. SiC whiskers are in the order of microns in diameter and grow several hundred microns in length.

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Dr. Bruce Perrault Ph.D (Georgia Institute of Technology (Georgia Tech), USA)

Silicon Carbide Nanoparticles: The ability of Silicon Carbide to withstand very high temperatures without breaking or distorting is used in the manufacture of ceramic brake discs for sports cars. It is also used in bulletproof vests as an armor material and as a seal ring material for pump shaft sealing where it frequently runs at high speed in contact with a similar silicon carbide seal. One of the major advantages in these applications being the high thermal conductivity of Silicon Carbide which is able to dissipate the frictional heat generated at a rubbing interface.

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Dr. Hans Roelofs Ph.D (National Technical University of Athens, Greece)

Silicon Carbide Nanoparticles: In general, SiC has excellent oxidation resistance up to 1650°C. Oxidation resistance, however, depends largely on the amount of open porosity and particle size, which determine the surface area exposed to oxygen. The higher is the surface area the higher is the oxidation rate. Kinetically, SiC is stable in air up to ~1000°C.

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Silicon Carbide Nanoparticles

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