CAS Number 12012-35-0, Color Gray to Black Boron Carbide Nanoparticles, Density 668 gcm3

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powder 100 Gram Gray to Black
₹ 10395.00
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Technical Specifications

Parameter Value
Form powder
Color Gray to Black
Grade Lab, R&D
Purity >99.9%
Density 6.68 g/cm3
CAS Number 12012-35-0
Minimum Order Quantity 100 Gram

Product Description

Boron carbide Composed of these particles, Nanoscale materials are often called nanoparticles primarily featuring boron b along with carbon c atoms. They possess unique properties and characteristics that differ from bulk boron carbide, Making them useful in various applications. Presented below are several important features and properties featuring a single nanoparticle of boron carbide scale and finish area Nanoparticles of boron carbide typically have dimensions covering a range from a few to tens with a, Of nanometers raised platform area, To, Volume ratio. The nanoscale size and large surface area provide increased reactivity and enhanced features in comparison with bulk boron carbide. 2. Durable boron recognized for its hardness and the capacity to withstand wear carbide is celebrated for its transforming it, Exceptional hardness into a material known for its exceptional hardness known. Boron carbide nanoparticles retain this exceptional hardness, Providing excellent wear endurance and strength they serve as tools in applications where abrasion and like trimming tools, Armor materials, And wear, Wear are significant concerns, Resistant coatings. 3. Lightweight boron particles at the nanoscale composed of carbide which serves, Are lightweight as advantageous for scenarios needing superior strength and stiffness while keeping the weight low. They serve purposes in lightweight structural materials, Such as aerospace components and sports equipment. 4. Nanoparticles of boron carbide, Characterized by their increased possess a, Melting point superior melting threshold allowing them to resist extreme heat with minimal distortion or degradation. This property qualifies them for use for purposes related to high, Temperature environments, Such as furnace linings and thermal barrier coatings. 5. Chemical resistance boron carbide nanoparticles exhibit excellent being extremely, Chemical resistance tough against most alkaline substances, Acids, And corrosive chemicals. This feature increases their significance in tasks that demalong with durability against such as, Chemical attack protective coatings, Corrosion, And chemical, Resistant materials sensors. 6. Neutron shielding boron nanoparticles composed of carbide hold exceptional neutron absorption capabilities as a result of the high natural abundance of boron, 10 isotope, Which includes a high neutron absorption cross, Section. This characteristic qualifies them for utilization in nuclear functions such as neutron shielding and control rods. 7. Electrical conductivity boron carbide nanoparticles are semiconducting materials with an moderately low electrical ability to conduct electricity. This feature can be harnessed on-site of electronic devices and optoelectronic devices, Such as sensors, Transistors, And photovoltaic cells. 8. Biocompatibility boron carbide nanoparticles are generally viewed suggesting they, As biocompatible are readily tolerated by living organisms and do not trigger significant toxicity. This property opens up possibilities for for instance, Therapeutic transport, Biomedical applications mechanisms and tissue, Imaging agents engineering. 9. Thermal stability boron carbide nanoparticles exhibit good allowing them, Thermal stability to maintain their properties at high temperatures. They feature an elevated ensuring their, Decomposition temperature compatibility with diverse applications that involve extreme heat, Such as thermal barrier coatings and refractory materials. 10. Radiation shielding boron carbide nanoparticles have excellent radiation shielding properties. They can absorb and attenuate ionizing radiation, Making them valuable in radiation shielding materials for medical imaging, Nuclear facilities, And space applications. It plays an essential function to note that the properties and behavior of boron carbide nanoparticles can vary contingent upon their synthesis method, Size, And surface proper safety, Modifications. Additionally measures ought to be observed in partnership with nanoparticles to minimize any potential health risks.

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