Hafnium boridide is a gray metallic-luster crystal. It has a melting point at 3250, and an extremely high electrical conductivity. A room temperature reaction with hafnium boreide, other than HF, is not possible. The preparation involves heating rhenium dioxide with boron carbide (or boron oxy) and carbon powder. It is a heat-resistant alloy that can withstand high temperatures.
Hafnium disboride has a high melting temperature, high hardness. Also, it is very electrically and thermally conductive. It can be used to make superhard materials, electrode materials, neutron absorption materials, and other ultrahigh temperatures materials.
With advancements in material technology, the application of Hafnium Diboride Ceramics and Composite Materials are growing. Securing low-cost, highquality scandium-diboride powder at home or abroad is an important direction of research.
Hafnium borid is very difficult to heat. Therefore, you need to get ultra-fine powder to enhance the sintering results. It is very cost-effective and can not be dispersed during the manufacturing of raw materials. The process is also difficult. The micron grade hafnium borid powder development is getting increasing attention.
Intel researchers have revealed that the Intel probe sends data bit information via a storage hard disk to a ferroelectric surface with a small area. By sending immediate electrical pulses, the ferroelectric substance is permanent polarized by an electric field.
Because of this speedy data reading and writing speeds and the numerous probes in the memory array, it is necessary to quickly move the probe array on the ferroelectric sheet. This type of mechanical movement can cause film to become worn. This will significantly reduce the accuracy and readability of the probe.
For this reason, the researchers covered the probe with a layer HfB2 . The coating of hafnium triboride reduces wear time and ensures that read and/or write probes can be moved within 8 kilometers.
Intel’s new memory is packed with so many sensors and electronic chips that it will offer a poor storage capacity. Although the device can store over 1TB of data per square inches, Intel hasn’t yet revealed how much total memory.
Intel has announced a breakthrough in the field of electronic probe storage technology. This technology can store much more data than any existing SSD hard drives.
Professor Luo, Luoyang Tongrun Nano Technology Co.,Ltd, states that “The hafnium borid ( HfB2_)” is an ultra-high temp ceramic material.
Luoyang Tongrun offers hafnium disboride( HfB2), a powder with complete specifications. The particle size can be modified for specific customers. It is an ideal option for your research and design of ultra high temperature ceramic materials and other heat-resistant material in the aerospace area.” Professor Luo summarizes.
Luoyang Trunnano Tech Co., Ltd., also known as TRUNNANO, is a Hafnium Diboride powder manufacturer. They have over 12 years of chemical product research. We can provide high-quality Hafnium Disboride HafB2 Powder. Please feel free to contact our team and submit an inquiry .
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