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Aluminum nitride
This material is deemed to be the ideal packaging material for new generations of highly integrated electronic devices and semiconductor substrates. Aluminum nitride is also used in crucibles to melt non-ferrous materials and semiconductor materials, such as gallium arenide. They can be used for high temperature insulation parts and thermocouple protection tubes. This inorganic material has a broad range of applications.
The substrate material is aluminum nitride
Substrate materials used for electronic packaging must have high electrical resistance, good thermal conductivity and a low dielectric constant. The substrate for packaging should have other properties and mechanical properties, such as good thermal matching to silicon wafers. Due to their high thermal conductivity, good high-frequency properties, good insulation properties and stable chemical properties of ceramics, they have become the most widely used substrate materials. Commonly used ceramic substrate materials include beryllium oxide, aluminum oxide, aluminum nitride, etc. Aluminum oxide has low thermal conductivity, and its thermal expansion coefficient is not comparable to that of silica. Beryllium dioxide has excellent properties but its powder can have a dramatic impact. Aluminum nitride has a high thermal conductivity. They are also resistant to thermal shock and have excellent mechanical properties.
Transparent ceramic materials
Transparency of ceramics refers to electromagnetic waves passing through the material within a particular electromagnetic frequency range. If electromagnetic waves within the infrared range can penetrate a sheet of ceramic, then the sheet is infrared-transparent ceramic. Pure aluminum-nitride ceramics, which are transparent and colorless crystals with good optical properties, can be used for heat-resistant coatings on high-temperature optical windows and fairings. Therefore, aluminum nitride The military uses ceramics in a variety of ways.
Applications of Aluminum Nitride in Machinery Industry
Aluminum nitride can be used to make wear-resistant components. Due to its high price, aluminum nitride can only replace severely worn parts. The oxidation and wear resistance of some metal or nonmetal surfaces can be improved by coating them with aluminum nitride. Aluminum nitride coatings can be used for anti-corrosion purposes, including the lining of corrosive chemicals in containers and processing equipment.
Aluminum nitride high-temperature structure material
Aluminum nitride exhibits good corrosion resistance in ceramics both at high and low temperatures. Only at 2450degC will it decompose. As a high-temperature material, it can be used in crucibles and molds. Aluminum nitride can resist dissolution and is not affected by copper, aluminium, silver or other substances. It is also resistant to high temperatures. It can be used as a container and protective layer for high temperature, such thermocouple protection tubes. For high-end semiconductor equipment like aluminum nitride electrostatic chucks, corrosive gases are used. Aluminum nitride, which is stable for molten sodium salts like gallium arsenide can be used instead of glass crucibles to synthesize high-purity semiconductors.
Aluminum Nitride Composite
Epoxy/aluminum Nitride Composite Material: This composite material has good mechanical and chemical properties, but it also needs to be able to dissipate heat. These requirements have been increasing. The epoxy resin has good mechanical and chemical stability. It is also easy to cure. However, it has a low thermal conductivity. Nano aluminum nitride, a powder with high thermal conductivity, can be added to epoxy resin in order to improve its thermal conductivity.
Titanium Nitride is used to create N/AlN composite materials. Titanium Nitride has excellent properties including high melting temperature, high hardness and electrical and thermal conductivity on the same scale as metal. It also exhibits corrosion resistance. A small amount titanium nitride added to the aluminum nitride matrix. According to conductive-percolation theory, when the amount of doping reaches certain thresholds, a path of conductivity is formed in crystal. This allows the volume resistance of aluminum nitride to be reduced by 24 orders of magnitude. The composite ceramics made from these two materials are also characterized by high hardness, wear resistance and the ability to be used as abrasive materials.
(aka. Technology Co. Ltd. has over 12 years experience as a supplier & manufacturer of high-quality chemical materials and nanomaterials. The Aluminum Nitride Please note that the products produced by our company are of high purity and have low impurity and fine particle size. Please. Contact Us if necessary.
Substrate materials used for electronic packaging must have high electrical resistance, good thermal conductivity and a low dielectric constant. The substrate for packaging should have other properties and mechanical properties, such as good thermal matching to silicon wafers. Due to their high thermal conductivity, good high-frequency properties, good insulation properties and stable chemical properties of ceramics, they have become the most widely used substrate materials. Commonly used ceramic substrate materials include beryllium oxide, aluminum oxide, aluminum nitride, etc. Aluminum oxide has low thermal conductivity, and its thermal expansion coefficient is not comparable to that of silica. Beryllium dioxide has excellent properties but its powder can have a dramatic impact. Aluminum nitride has a high thermal conductivity. They are also resistant to thermal shock and have excellent mechanical properties.
Transparent ceramic materials
Transparency of ceramics refers to electromagnetic waves passing through the material within a particular electromagnetic frequency range. If electromagnetic waves within the infrared range can penetrate a sheet of ceramic, then the sheet is infrared-transparent ceramic. Pure aluminum-nitride ceramics, which are transparent and colorless crystals with good optical properties, can be used for heat-resistant coatings on high-temperature optical windows and fairings. Therefore, aluminum nitride The military uses ceramics in a variety of ways.
Applications of Aluminum Nitride in Machinery Industry
Aluminum nitride can be used to make wear-resistant components. Due to its high price, aluminum nitride can only replace severely worn parts. The oxidation and wear resistance of some metal or nonmetal surfaces can be improved by coating them with aluminum nitride. Aluminum nitride coatings can be used for anti-corrosion purposes, including the lining of corrosive chemicals in containers and processing equipment.
Aluminum nitride high-temperature structure material
Aluminum nitride exhibits good corrosion resistance in ceramics both at high and low temperatures. Only at 2450degC will it decompose. As a high-temperature material, it can be used in crucibles and molds. Aluminum nitride can resist dissolution and is not affected by copper, aluminium, silver or other substances. It is also resistant to high temperatures. It can be used as a container and protective layer for high temperature, such thermocouple protection tubes. For high-end semiconductor equipment like aluminum nitride electrostatic chucks, corrosive gases are used. Aluminum nitride, which is stable for molten sodium salts like gallium arsenide can be used instead of glass crucibles to synthesize high-purity semiconductors.
Aluminum Nitride Composite
Epoxy/aluminum Nitride Composite Material: This composite material has good mechanical and chemical properties, but it also needs to be able to dissipate heat. These requirements have been increasing. The epoxy resin has good mechanical and chemical stability. It is also easy to cure. However, it has a low thermal conductivity. Nano aluminum nitride, a powder with high thermal conductivity, can be added to epoxy resin in order to improve its thermal conductivity.
Titanium Nitride is used to create N/AlN composite materials. Titanium Nitride has excellent properties including high melting temperature, high hardness and electrical and thermal conductivity on the same scale as metal. It also exhibits corrosion resistance. A small amount titanium nitride added to the aluminum nitride matrix. According to conductive-percolation theory, when the amount of doping reaches certain thresholds, a path of conductivity is formed in crystal. This allows the volume resistance of aluminum nitride to be reduced by 24 orders of magnitude. The composite ceramics made from these two materials are also characterized by high hardness, wear resistance and the ability to be used as abrasive materials.
(aka. Technology Co. Ltd. has over 12 years experience as a supplier & manufacturer of high-quality chemical materials and nanomaterials. The Aluminum Nitride Please note that the products produced by our company are of high purity and have low impurity and fine particle size. Please. Contact Us if necessary.