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What is it?

Silicon Nitride

Silicon nitride can be described as an organic substance that has the chemical formula Si3N4. It is an important structural ceramic material, with high hardness and wear resistance. It is also resistant to heat and cold shocks. It can be heated to over 1000°C in the air. If it is quickly cooled, it will not break. This is because of its exceptional properties that silicon nitride clays can be used to produce mechanical components such bearings, gas turbine blades or mechanical seal rings. The heat-receiving area of engine components can be made from silicon nitride clays, which are heat-resistant and hard to heat transfer. This will not only increase the quality of the engines but also save fuel. Similar engines have been created in China and Japan.

Silicon Nitride’s main features

The relative molecular weight is 140.28. You can choose from grey, white, or off-white. It is high temperature insoluble, has no melting points, and has strong resistance to high temperatures creep. The melting point of reaction sintered silicone nitride is over 1800°C; hexagonal system. The crystals are hexahedral. Si3N4 prepared through reaction sintering methods has a density of 1.82.7g/cm3, while Si3N4 made by hot pressing methods has a density of 3.123.22g/cm3. Mohs hardness 9.9, Vickers hardness 2.20, and microhardness 3.123.22g/cm3 are the Mohs hardness. Melting point 1900 (under pressure). Normal pressure usually causes it to decompose at around 1900degC. Specific heat capacity 0.71J/g*K The heat of forming is -751.57kJ/mol. The thermal conductivity of the material is (2-155) W/(m*K). The coefficient of linear expansion is 2.8~3.2×10-6/(20~1000). It is not soluble when water is used. Soluble in hydrofluoric acids. 1300-1400 is the temperature at which air oxidation can begin. The specific volume resistance of the air is 1.4×105 *m for 20degC, and 4×108 *m for 500degC. The elastic modulus measures 2842046060MPa. The reaction sintered results in a 490MPa compressive force. It reacts at 1285 with dicalcium nitride to produce calcium silicide. At 600, it is reduced and the transition metal is released. It has a bending strength of 147 MPa. It can be made by heating silicon powder with nitrogen or reacting silica halide in ammonia. The resistance is between 10 and 15 to 16 O.cm. Useful for high temperature ceramic raw materials.

Silicon Nitride Properties

Other Titles
silica (IV), nitride


Combination Formula

Molecular Weight

White powder to gray powder

Melting Point
1900 degC

Boiling Point

2.2-3.5 g/cm3

Solubility of H2O

Electrical Resistivity
11-12 10x O.m

Specific heat
720 to 800 J/kg

Poisson’s Ratio
0.24 to $0.27

Thermal Conductivity
12 to 31 W/m.-K

Thermal Expansion
2.5 to 3.0 um/m-K

Young’s Modulus
140 to 315 GPa

Exact Weight
139.943 g/mol
Silicon Nitride Si3N4 Powder CAS 12033-89-5

Silicon Nitride’s applications

1. High thermal stability, high oxidation resistance and high product dimensional accuracy are all characteristics of silicon nitride ceramics. Silicon nitride, a covalent chemical compound with high bond strengths and the ability to form an oxide protective coating in the air, has excellent chemical stability. It is resistant to oxidization and can be infiltrated or damaged by many molten alloys, such as aluminum and lead. Silicon nitride ceramic materials are used for high temperature engineering components, advanced materials in metallurgical industries, corrosion-resistant parts and sealing components in chemical industries, and cutting and tooling in the machining industry.

Because silicon nitride forms strong bonds with aluminum oxide, silicon carbide, silicon carbide, thorium dioxide, boron and thorium dioxide it can be used to modify different ratios.

2. Also, solar cells can be made from silicon nitride. After the silicon-nitride coating is applied using the PECVD method it can be used as an antireflection film to reduce reflections of incident light. During the deposition of the silicon silicon nitride movie, hydrogen atoms from the reaction product enter both the silicon film and the silicon wafer. This role was to prevent passivation. Here, the atomic ratio of silicon Nitride to silicon Nitride is not exactly 4:3. It fluctuates between different processes and can vary within a specific range. Additionally, the physical properties of films corresponding to differentatomic ratios may differ.

3. Ultra-high temperatures gas turbines, aircraft engines and electric furnaces are all suitable.

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