Boron carbide Nanoparticles often come in Black colors. Boron carbide Nanoparticles melt at approximately 2350°C. Boron carbide Nanoparticles boil at 3500°C.
About Boron Carbide Nanoparticles Nano B4C Powder CAS 12069-32-8:
B4C emerged as an byproduct of metal borides reactions in 19th-century. The first scientific study of this material took place in 1930. The molar weight for Boron-Carbide Nanoparticles stands at 55.255 g/mol. Its density, 2.52 g/cm3, is 5.52 g/mol. It has a rhombohedral crystal structure. At 2600 degrees C, it is made by the reaction of boric acids with graphite. You will find a narrow range in particle size distributions, a larger specific surface area, good purity, and high purity. The Specific Surface area of Boron caride Nanoparticles has a greater than 42m2/g.
How are Boron Carbide Nanoparticles made?
Boron Carbide Nanoparticles spherical, high-surface area particles. Nanoscale Boron Carbide particles measure between 10 and 100 nanometers (nm), with an SSA of approximately 10 to 75 micrometers per gram. Nano Boron Carbide particles also come in passivated or ultra high purity, high purity, coated and dispersed form. These particles are also made available in dispersion by the AE Nanofluid manufacturing group. The nanofluids, which are suspended nanoparticles in solution with surfactant and surface charge technology, can generally be defined as either suspended or dissolved particles.
Boron Caride Nanoparticles don't react with acid solutions or alkali. This compound has high resistance to heat and anti-oxidation. It also exhibits high strength, hardness, high crushing efficacy, high elastic modulus and good self-lubricating properties. Boron carbide 's nanoparticles have a larger cross-section of thermal nuon capture. They also exhibit excellent anti-radiation and neutron absorption characteristics.
Jatujakguide is an international trusted Boron Carbide Nanoparticles Nano C Powder supplier. You can send us an inquiry regarding the current Boron (Carbide) Nanoparticles at any moment.
Carbon materials and bore powder are the raw materials. Transition metal inorganics salts can then be added as catalysts to lower the required reaction temperatures. By heating the furnace, and controlling the sintering of the raw materials, nano-boron carbide particles can be produced with uniform size distributions and morphology.
The reaction's chemical formula is B+C=B4C.
Technical Parameters of BoronCarbide Nanoparticles B4C Powder
Name of the product
The color of the sky
Boron Carbide Nanoparticles
Boron Carbide Nanoparticles Nano-B4C Powder:
Boron Carbide nanoparticles
These are often used in carbon containing refractories as an antioxidant. They can improve product density and prevent the oxidation carbon in carbon containing refractories.
Nano B4C powder
It is an artificially synthesized hard material. This abrasive has an extremely high degree of grindability without the introduction of impurities. It can be used as a substitute for diamond abrasives.
Bulletproof armor: The bulletproof plate is made of high-hardness steel with small specific gravity. It has excellent mechanical and anti-penetration properties. Additionally, it offers greater armor protection.
What is the hardness of the ball?
The isostatic pressing of diamonds is the best. As a grinding media, it can be used for virtually all types of grinding, including diamonds.
Nano boron carbide ceramic
Due to its superior hardness, high corrosion resistance and durability, the sealing ring is widely utilized in pumps that contain large amounts of solid particles. It can serve you for up to one year. It's a great material to seal areas with tight requirements.
Material for use in refractory processes
Use it in carbon-containing materials to produce an antioxidation effect. It can reduce porosity, improve mid-temperature resistance, and decrease cracks.
The product is more efficient than powders of micron grade, and it's widely used in both the nuclear industry (and national defense) industries. It is widely used in the nuclear industry.
As the isolation block, the storage pool can be made that meets the storage time of 15 year and the International Atomic Energy Agency's temporary storage recommendation for spent fuel of at least 50 years.
The plates have a high degree of hardness, small specific gravity and a strong armor protection.
Due to its light weight and high toughness
This material is extensively used for the manufacturing of hydraulic cutting and hand-held blasting machine nozzles.
The B4C ceramic nozzle
It has characteristics such as a high life expectancy and low size changes.
This is a synthetic superhard product. This abrasive has an extremely high abrasive impact and does not contain impurities. It can be used as a substitute for diamond-abrasives.
Grinder balls made by isostatic pressing
It is hardier than diamond so it can be used as a grinding medium for all occasions other than diamond.
Sealing ring made from
Ceramics made of nano-B4C
Because of its hardness and resistance to corrosion, it is often used in pumps which contain large amounts of liquids or solid particles. This material is ideal for sealing tight spaces and preventing leaks.
Boron Carbide Nanoparticles Nano-B4C Powder Storage:
Packed in a clear polyethylene plastic container and kept dry in a warehouse.
Shipping and packing of Boron Carbide Nanoparticles Nano Powder B4C:
Many types of packing are available depending on the quantity Boron Carbide NAParticles B4C Powder.
Boron Carbide Nanoparticles Nano B4C Powder packing:
You can vacuum pack 1kg/bag, 25kg/barrel or according to your requirements.
Boron Carbide Nanoparticles Nano B4C Powder shipping:
After receipt of payment, items may be sent out either by sea or by air.
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