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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, a by-product from reactions with metallic borides was first discovered in the 19th Century. The first scientific study of this material took place in 1930.
Boron Cartbide Nanoparticles‘s mol weight is 55.255g/mol. Its density, 2.52g/cm3, is 2.52g/cm3. It has a rhombohedral crystal structure. It is formed by reacting boric acid with graphite in 2600 °C. The Specific Surface area of
Boron caride Nanoparticles has a greater than 42m2/g.
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 dispersions through the AE Nanofluid manufacturing group. Nanofluids generally refer to suspended nanoparticles, which are created in solutions using either surfactant and surface charge technology.
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.
TRUNNANO is an international Boron Carbide Nanoparticles Nano B4C Pulver supplier.
How are Boron Carbide Nanoparticles Produced
Carbon materials and bore powder are the raw materials. Transition metal inorganics salts can then be added as catalysts to lower the reaction temperatures. By heating the furnace and controlling the process of sintering, nano-boron carbide particles can be produced with uniform size distribution and morphology.
The reaction’s chemical formula is B+C=B4C.
Technical Parameters of BoronCarbide Nanoparticles, Nano B4C Pulp:
Product name |
|
Purity |
Size |
Crystal Form |
SSA |
|
Boron Carbide Nanoparticles |
B4C |
99% |
50nm |
Hexagonal |
75m2/g |
Gray |
Boron carbide nanoparticles Nano powder:
Boron carbide nanoparticles have an antioxidant role in carbon-containing refractiveries. These can increase density, protect carbon from oxidation in carbon-containing rectories, reduce porosity at moderate temperature and decrease cracks.
nano B4C powder can be described as an artificially synthesized, super-hard material. This abrasive has an extremely high grind without any impurities. It can be used as a substitute for diamond abrasives.
This bulletproof plat can also be added
nanoB4C to protect against bullets. The mechanical properties of the plate and their anti-penetration abilities are significantly improved.
It is hardier than a diamond, and the
micro-B4C isostatically pressed makes it second. This grinding medium is suitable for virtually all situations, including diamonds.
High hardness, corrosion resistant sealing Ring is commonly used for pumps that contain a lot of solid particles. You can expect it to last for more than a year. It’s a great material to seal areas with tight requirements.
Refractory material: a B4C powder used in carbon containing refractories for an antioxidation effect. It can decrease porosity, lower mid-temperature resistance, and reduce cracks.
Use in nuclear industry. This product absorbs neutrons at a much higher level than powders of micron quality, and is therefore widely used in national defense industries as well as the nuclear industry. The
B4C material serves as an isolation block and allows for storage that meets the required storage time of 15 years. This also meets the International Atomic Energy Agency recommendation of temporary storage of used fuel for at most 50 years.
Military careerAdd
micro-B4C armour. This plate features high specific gravity and high mechanical performance. Additionally, the armor protection is better.
High-precision Nozzle: NanoB4C has been widely used to make hand-held sandblasting machine and hydraulic cutting nozzles.
B4C ceramicnozzle features a long-lasting life span and low size changes.
Abrasive: Nab4C powder, a synthetic hard material. This abrasive has an extremely high abrasive power and does not contain impurities. This is the ideal alternative to diamond abrasives.
Grinding media : Balls made from
nanoB4C. The hardness of this material is comparable to that of diamond. As a result, it is suitable for most grinding occasions, except those involving diamond.
Sealing rings: This sealing ring is made from
micro-B4C ceramics and has a high level of hardness. It can be used for pumps with large quantities of solids or liquids. This material is extremely reliable and can be used for sealing very tight, leak-free events.
Storage condition of BoronCarbide Nanoparticles Nano-B4C Powder:
Packed in a clear polyethylene plastic container and kept dry in a warehouse.
Shipping and Packing of Boron Carbide nanoparticles Nano-B4C Powder.
Many types of packaging are available depending on the quantity Boron Carbide NAParticles B4C Powder.
Boron Carbide Nanoparticles Nano Powder Packing: vacuum Packaging, 1kg/bag 25kg/barrel or as required
Boron Carbide Nanoparticles Nano B4C Pulp shipping:
can be shipped by sea, air or express, once the payment has been received.
Lempotee Nano Technology Co. Ltd.
You can contact us to request high-quality nano HTML4C
powder. (brad@ihpa.net)
Boron Carbide Properties
|
Black diamond, Boron carbide powder, and black diamond are all B4C.
Bron-carbon refractory Ceramic
12069-32-8 |
Addition Formula |
B4C |
Molecular weight |
55.26 |
Appearance |
Black Powder |
Melting Point |
2763 °C |
Heating Point |
3500 °C |
Density |
2.52 g/cm3 |
Solubility of H2O |
Insoluble |
Electric Resistivity |
0-11 10x |
Poisson’s Rate |
0.17-0.18 |
Tensile strength |
350MPa (Ultimate). |
Heating Conductivity |
31-39 W/m – K |
Thermal Expansion |
4.5 – 5.6
Vickers Hardness |
26Mpa |
Young’s Module |
240-460 Gpa |
Exact |
56.037222 |
BoronCarbide Health and Safety Information
Signal word |
Warning |
Hazard Statements |
H332 |
Hazard Codes |
|
Risk Codes |
20 |
Security Statements |
22-39 |
|
N/A |
Transport Information |
N/A |
Germany |
3 |
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