What’s boron-nitride?
Boron Nitride is a crystal made of nitrogen and boron. With four variants of boron Nitride (HBN), hexagonal Boron Nitride (RBN), cubic Boron nitride (CBN) and wurtzite Nitroboron (WBN), the chemical composition is 43.6% and 56.4% boron.
Development history of boron Nitride
Boron nitride More than 100 years have passed since its invention. It was used in high-temperature lubricants as hexagonal boron nutride. Because its structure, properties and whiteness are very similar, it is often called white graphite.
Boron nitride ceramics (BN), was first discovered back in 1842. Since the Second World War, a lot has been accomplished on BN materials. However, it wasn’t developed until 1955 when the hot pressing technique was perfected. American Diamond Company was the first company to start production. In 1960, they produced over 10 tons.
R*H*Wentrof produced CBN in 1957. General Electric Company became the first to sell Borazon as a product in 1969. CBN tools were first announced by the United States in 1973.
Japan imported CBN tools from the United States in 1975.
A pulsed plasma technology, which was first used in 1979 to make a collapsed film of cBN at low temperature under low pressure, was successful.
To prepare cBN films, there were many methods available at the end of 1990s.
China sees development as accelerating by leaps. The initial research for BN powder started in 1963. A successful development in 1966 led to a production run in 1967. This was then used by my country in its industry and the cutting-edge technology.
Physical and chemical characteristics of Boron Nitride
Physical properties
CBN crystals are usually dark brown, black or deep red with a zinc mix structure and high thermal conductivity. CBN is hardier than diamond and used in a variety of tools, abrasives, and other uses.
Boron Nitride is chemically inert and can be corroded with water and organic acids. Hot concentrated alkali breaks the boron/nitrogen bond. The boron-nitrogen bond will be broken in hot concentrated alkali. Above 1200 it will begin to oxidize. In a vacuum it will begin to decompose around 2700 degrees Celsius. The relative density is 2.29. It’s slightly soluable in hot acid but not in cold water. The compressive strength is 170MPa. Maximum operating temperature in an oxidizing environment is 900°C, while it can rise to 2800°C when inactively reducing. But, the performance of lubrication at room temperatures is very poor. The majority of properties of boron-nitride outperform carbon materials. The hexagonal boron-nitride has a low friction coefficient and good temperature stability. It also offers high heat resistance, thermal shock resistance, high strength, low thermal conductivity, low expansion coefficients, high resistance to corrosion, resistance to microwave radiation, and transparent Infrared.
Material structure
There are many hexagonal boron-nitride crystals. The most well-known is graphite. But there are also other crystal forms. These include rhombohedral and cubic boron nuitride. Boron nitride (c-BN), wurtzite type boron nitride (w-BN). Even graphene-like two-dimensional crystals of boron nutride have been found.
Boron Nitride is used
1. Use metal forming mold release agent or metal wire drawing oil.
2. Under high temperatures, special resistance and electrolytic materials
3. The high-temperature extrusion-resistant additives and the additives for making ceramic composite materials are also suitable.
4. For transistors, heat sealing desiccant and for additives in polymers such as resins.
5. Pressed into a variety of shapes from boron-nitride products that can be used for insulation, heat dissipation, pressure and high temperature.
6. Materials for thermal protection in aerospace.
7. After high temperature treatment and high pressure, the catalyst can convert it into cubic-boron nitride.
8. These are the structural materials for an atomic nuclear reactor.
9. For airplanes or rocket engines, nozzles
10. Insulator for plasma arc, high-voltage electricity and high frequency electricity
11. Materials to stop neutron radiation.
12. These superhard materials, which are made from boron Nitride can be turned into drill bits and high-speed cutters for drilling oil wells.
13. This is used in metalurgical processes for the Isolating Ring of Continuous Cast Steel, the Laundering of Amorphous Iron and as the Release Agent of Continuous Cast Aluminum (various optical-glass release agents).
14. For aluminum plating different capacitor films and aluminum plating picture tubes or displays, we produce evaporation tanks.
15. All varieties of fresh-keeping, aluminum-plated packaging bags
16. You can get all types of anti-counterfeiting laser plating and brand hot stamping material, all types of cigarette labels, beer label, packaging boxes, cigarette box packaging, etc.
17. Lipstick filler in cosmetics are non-toxic, shiny, and lubricious.
(aka. (aka. Boron Nitride manufactured by our company is of high purity, small particles size, and low impurity. Thank you Please contact us if necessary.
Development history of boron Nitride
Boron nitride More than 100 years have passed since its invention. It was used in high-temperature lubricants as hexagonal boron nutride. Because its structure, properties and whiteness are very similar, it is often called white graphite.
Boron nitride ceramics (BN), was first discovered back in 1842. Since the Second World War, a lot has been accomplished on BN materials. However, it wasn’t developed until 1955 when the hot pressing technique was perfected. American Diamond Company was the first company to start production. In 1960, they produced over 10 tons.
R*H*Wentrof produced CBN in 1957. General Electric Company became the first to sell Borazon as a product in 1969. CBN tools were first announced by the United States in 1973.
Japan imported CBN tools from the United States in 1975.
A pulsed plasma technology, which was first used in 1979 to make a collapsed film of cBN at low temperature under low pressure, was successful.
To prepare cBN films, there were many methods available at the end of 1990s.
China sees development as accelerating by leaps. The initial research for BN powder started in 1963. A successful development in 1966 led to a production run in 1967. This was then used by my country in its industry and the cutting-edge technology.
Physical and chemical characteristics of Boron Nitride
Physical properties
CBN crystals are usually dark brown, black or deep red with a zinc mix structure and high thermal conductivity. CBN is hardier than diamond and used in a variety of tools, abrasives, and other uses.
Boron Nitride is chemically inert and can be corroded with water and organic acids. Hot concentrated alkali breaks the boron/nitrogen bond. The boron-nitrogen bond will be broken in hot concentrated alkali. Above 1200 it will begin to oxidize. In a vacuum it will begin to decompose around 2700 degrees Celsius. The relative density is 2.29. It’s slightly soluable in hot acid but not in cold water. The compressive strength is 170MPa. Maximum operating temperature in an oxidizing environment is 900°C, while it can rise to 2800°C when inactively reducing. But, the performance of lubrication at room temperatures is very poor. The majority of properties of boron-nitride outperform carbon materials. The hexagonal boron-nitride has a low friction coefficient and good temperature stability. It also offers high heat resistance, thermal shock resistance, high strength, low thermal conductivity, low expansion coefficients, high resistance to corrosion, resistance to microwave radiation, and transparent Infrared.
Material structure
There are many hexagonal boron-nitride crystals. The most well-known is graphite. But there are also other crystal forms. These include rhombohedral and cubic boron nuitride. Boron nitride (c-BN), wurtzite type boron nitride (w-BN). Even graphene-like two-dimensional crystals of boron nutride have been found.
Boron Nitride is used
1. Use metal forming mold release agent or metal wire drawing oil.
2. Under high temperatures, special resistance and electrolytic materials
3. The high-temperature extrusion-resistant additives and the additives for making ceramic composite materials are also suitable.
4. For transistors, heat sealing desiccant and for additives in polymers such as resins.
5. Pressed into a variety of shapes from boron-nitride products that can be used for insulation, heat dissipation, pressure and high temperature.
6. Materials for thermal protection in aerospace.
7. After high temperature treatment and high pressure, the catalyst can convert it into cubic-boron nitride.
8. These are the structural materials for an atomic nuclear reactor.
9. For airplanes or rocket engines, nozzles
10. Insulator for plasma arc, high-voltage electricity and high frequency electricity
11. Materials to stop neutron radiation.
12. These superhard materials, which are made from boron Nitride can be turned into drill bits and high-speed cutters for drilling oil wells.
13. This is used in metalurgical processes for the Isolating Ring of Continuous Cast Steel, the Laundering of Amorphous Iron and as the Release Agent of Continuous Cast Aluminum (various optical-glass release agents).
14. For aluminum plating different capacitor films and aluminum plating picture tubes or displays, we produce evaporation tanks.
15. All varieties of fresh-keeping, aluminum-plated packaging bags
16. You can get all types of anti-counterfeiting laser plating and brand hot stamping material, all types of cigarette labels, beer label, packaging boxes, cigarette box packaging, etc.
17. Lipstick filler in cosmetics are non-toxic, shiny, and lubricious.
(aka. (aka. Boron Nitride manufactured by our company is of high purity, small particles size, and low impurity. Thank you Please contact us if necessary.
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