Overview of AlMgB14 Pulver
Aluminum Boride or Al3Mg3B56
The compound of aluminum, magnesium, and boron, also known as BAM is commonly known. Its nominal molecular formula for boron is AlMgB14. However, its chemical structure is closer to Al0.75Mg0.75B14. It is a wear-resistant ceramic alloy with a very low sliding friction coefficient. A record 0.04 was achieved in the AlMgB14 – TiB2 composite material, and 0.02 for the AlMgB14 – TiB2 composite. In 1970, BAM reported the discovery. It is an orthogonal structure and each cell has four B12 icosahedral units. The superhard material’s thermal expansion coefficient is comparable to that of concrete and steel.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14’s density is 2.66g/cm3. This is lower than most superhard materials, such as diamond or cubic-boron nitride. It is also resistant to carbon steel, stainless and titanium alloys up to 1300degC. It is also highly thermal stable.
Aluminum Magnesium Boride BAM AlMgB14 Powder
What are the applications of AlMgB14 Pulver?
BAM is available commercially, and more research is underway to find potential applications. To reduce friction between the parts and improve wear resistance, BAM, or BAM+ TiB2, can be applied to pistons, seals, and vanes. Energy consumption will be reduced by reducing friction. BAM can also apply to cutting tools. Reducing friction will decrease the force required to cut objects, extend the life of tools, and increase the speed of cutting. A 2-to-3 micron thick coating can improve efficiency and reduce tool wear.
The research area of superhard materials is dominated by Ternary Boride AlMgB14 powder. It has received a lot of attention from researchers at home as well as abroad over the past years. AlMgB14 superhard metal is an alternative to traditional metastable materials such as diamond or cubic boron nuitride. This superhard material has good thermoelectric and thermal stability, high hardness and low density.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14’s density is 2.66g/cm3, which makes it much more dense than other superhard materials like diamond and cubic-boron nitride. It will not react with carbon, stainless, or titanium alloys up to 1300degC and has high thermal stability.
AlMgB14 aluminum–magnesium boreide has a higher electrical conductivity than most other superhard materials. It is practically equivalent to polysilicon. AlMgB14 has a low price that is between 5 and 10 times those of cubic boron nuitride or diamond. AlMgB14’s excellent properties make it not only wearable.
You can use traditional skills, like cutting and protective coating, in advanced scientific areas such as photodetectors, photodetectors, neutronmasks, micromachines and key aerospace components.
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