- Boron carbide is an extremely hard boron–carbonceramic, and covalent material
- Boron Carbide Powder has high chemical potential and is one of the most stable materials to acid.
- As of 2015, boron carbide is the third hardest substance known, after diamond and cubic boron nitride, earning it the nickname "black diamond".
- The ability of boron carbide to absorb neutrons without forming long-lived radionuclides makes it attractive as an absorbent for neutron radiation arising in nuclear power plants and from anti-personnel neutron bombs.
- Boron Carbide Powder has high grinding efficiency, high hardness, high elastic modulus, high wear-resistant, good self-lubrication characteristics, anti-oxidation, high temperature resistant, and high strength
- Boron Carbide nanopowder uses neutron absorber in nuclear reactors.
- Boron Carbide nanopowder uses personal and vehicle anti-ballistic armor plating.
https://nanografi.com/nanoparticles/b4c-boron-carb...
https://nanografi.com/nanoparticles/b4c-boron-carb...
https://nanografi.com/nanoparticles/b-boron-99-95-...
https://nanografi.com/nanoparticles/b-boron-nanopa...
Since its discovery, carbon nanotube (CNT) has attracted many interests in different technology fields due to its extraordinary properties. Properties such as, high strength, great electrical and thermal conductivity, light weight and flexibility made CNT one of the best materials for wide range of applications. However, from its name it can be understood that CNT is a nanoscale material which is very small to be applied for the production of daily products. Researchers all around the world are working on finding methods and techniques which could produce new materials with the extraordinary properties of CNT. Image retrieved from: https://worldindustrialreporter.com/strong-light-flexible-carbon-nanotubes-threads-with-ultrahigh-conductivity/ One of these research is focusing on the production of high strength threads that can be used in the manufacturing of fabrics, cables and ropes. An international group of scientists were able to produce a flexible conductive thread th...
Comments
Post a Comment