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High Temperature Resistant Boron nitride parts–crucible, Sintering Plate, insulating parts, ceramic rod
Material structure of Boron Nitride (BN)
Boron Nitride (BN) is a hexagonal crystal, which is commonly graphite lattice. There are also amorphous variants. In addition to the hexagonal crystal form, BN has other crystal forms, including rhombohedral BN, Cubic BN and Wurtzite type BN.
Rhombohedral BN is also called r-BN or trilateral BN, whose structure is similar to h-BN and will be produced during the conversion of h-BN to c-BN.
Cubic BN is abbreviated as c-BN, or | 3-BN, or z-bn that is sphalerite type BN with very hard texture.
Wurtzite type BN is short for w—BN or h—BN, which is a hard state under high pressure.
At present, two-dimensional BN crystals like graphite thin have also been found, such as two-dimensional crystal (MoS). -
Customized Boron nitride ceramic products
Material structure of Boron Nitride (BN)
Boron Nitride (BN) is a hexagonal crystal, which is commonly graphite lattice. There are also amorphous variants. In addition to the hexagonal crystal form, BN has other crystal forms, including rhombohedral BN, Cubic BN and Wurtzite type BN.
Rhombohedral BN is also called r-BN or trilateral BN, whose structure is similar to h-BN and will be produced during the conversion of h-BN to c-BN.
Cubic BN is abbreviated as c-BN, or | 3-BN, or z-bn that is sphalerite type BN with very hard texture.l Wurtzite type BN is short for w—BN or h—BN, which is a hard state under high pressure.
At present, two-dimensional BN crystals like graphite thin have also been found, such as two-dimensional crystal (MoS). -
Boron nitride ceramic insulator
Boron nitride insulators have thermal stability, dielectric property, chemical stability and mechanical stability. The application of boron nitride products as insulating materials is relatively immature and perfect, which will inevitably bring about various problems and some limitations. However, as long as innovative methods are used to solve them, it will bring infinite surprises. For example, when the thin film of boron nitride products is used for heat dissipation, it is found that its thermal conductivity varies greatly in different directions. It hardly conducts heat in the direction perpendicular to the film, but diffuses heat horizontally along the film. Scientists use spark plasma sintering technology to convert hexagonal boron nitride product powder into solid particles, so that it has the same heat conduction and heat dissipation capacity in three-dimensional space, while still maintaining electrical insulation performance.
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Nitride fibre-mA
Material structure of Boron Nitride (BN)
Boron Nitride (BN) is a hexagonal crystal, which is commonly graphite lattice. There are also amorphous variants. In addition to the hexagonal crystal form, BN has other crystal forms, including rhombohedral BN, Cubic BN and Wurtzite type BN.
Rhombohedral BN is also called r-BN or trilateral BN, whose structure is similar to h-BN and will be produced during the conversion of h-BN to c-BN.
Cubic BN is abbreviated as c-BN, or | 3-BN, or z-bn that is sphalerite type BN with very hard texture.
Wurtzite type BN is short for w—BN or h—BN, which is a hard state under high pressure.
At present, two-dimensional BN crystals like graphite thin have also been found, such as two-dimensional crystal (MoS).
