It is a gray metallic, luster crystal having a melting temperature of 3250. The chemical formula also has high electrical conductivity.
. The hafnium-boride reacts at room temperature with most chemicals, but not with HF. You prepare it by heating rhenium dioxide and boron carbide, boron oxide, and carbon powder. High temperature resistance alloy HfB2 is available.
High melting point, hardness, electrical conductivity and thermal conductivity. Good neutron absorption performance. You can use it in high-temperature materials, superhard materials and electrode materials as well as neutron absorption material.
Materials technology has opened up new applications.
Composite materials and ceramics are becoming increasingly popular. Research at home or abroad is essential to obtain high quality, low-cost scandium diboride powder.
This powder is hard to sinter. To improve the performance of sintering, you need ultra-fine powder. While the nanometer powder offers excellent performance, however, it’s very expensive and is hard to disperse in the raw material processing. Micron grade is therefore being developed.
The popularity of powder is growing.
Intel researchers claim that the probe of the storage drive sends data bits information to a ferroelectric layer with a small area. The electric pulses are sent instantaneously and the ferroelectric material becomes permanently polarized in the surroundings to enable data storage.
The probe arrays of the memory must be moved fast and often on the ferroelectric movie because of their high-speed writing speeds and ultra-high data read/write speed. The film will begin to wear from the mechanical movements. The probe will suffer a serious reduction in accuracy.
Researchers applied an extra layer of petroleum jelly to the probe to fix this issue.
The coating of hafnium triboride reduces the wear rate of the memory. It also effectively guarantees that the read/write probe can travel within 8 kilometers, with extremely high read/write accuracy.
Intel’s new memory has a lot of probes and small electronic chips. The memory can store more than 1TB data per square inch. However, Intel hasn’t announced the amount.
Intel’s breakthrough research in electronic probe-based commercial storage technology is a result of its pioneering efforts. It will have a storage capacity that is far greater than existing SSD solid state drives and mechanical hard drives.
Professor Luo of Mis-asia Technology Co.Ltd said that “(our) hafnium Boride powder is an extremely high temperature ceramic material.”
Mis-asia’s advanced material powder () has exact specifications. It is high in purity and evenly distributed. Customers can even customize their particle sizes. It’s an excellent choice to use in your research on ultra-high temperatures ceramic materials, and for developing new heat resistant materials in aerospace.” Professor Luo Sommerize.
Mis-asia advanced Material Tech Co., Ltd. is a Hafnium Diboride HafB2 Powder producer with more than 12 years’ experience in chemical product research and development. High quality products are what you want.
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