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Microparticles

The size of these particles lies between 0.1 to 100 μm. Microparticles are considered to have an increased surface-to-volume ratio than at a macroscale, therefore, depict a different behaviour. The larger microparticles can be viewed without any assistance; however, the smaller particles require magnification to be seen. Even with the visibility of the particles, the structure of the particle is considered to be too small for a human eye to see. The industrial microparticle is a magnetic core that is surrounded by the second material. These particles are mixed with other substances which are used for specified applications. The applications vary as it depends on the properties of the outer shell. They can be used anywhere from separating valuable metals from rock, leading to the purification of water. As stated above, microparticles have a larger surface area in comparison to various other materials, which causes certain particles to have different reactive behaviour on small scales in comparison to large scales. The most common reactions originate from certain metals. Upon exposure to these metals to wear and friction, they can become highly volatile and even explosive in certain cases. The use of microparticles is very diverse as it is being used as conductive coatings, manufacturing of glass, formation of lubricants, nuclear reactors, metallic alloys, and structural materials. It is also used as metal composites for bearings and liners engines. Microparticles are also used as support materials for the composition of precision metal powder catalysts which are used to increase the conductivity. It is also used to create a metal matrix for reducing friction. Microparticles are also used as a chromatography medium. Because of its applications, it is also used as an adsorbent in the defluoridation of drinking water. They are also used as air filters in vehicles while enhancing the efficacy of filters by absorbing and decomposing carbon monoxide leading to a decrease in environmental pollution. 

Brand: Nanographenex SKU: GX01MPP0105
Vanadium Aluminum Carbide (V2AlC) MAX Phase Micron Powder, APS: -325 Mesh, Purity: 99+%PRODUCT PROPERTIESCompound FormulaV2AlCMolecular Weight140.87AppearanceDark gray to black powderMelting Point2000 °CBoiling PointN/ADensity4.85 g/cm3Certificate of Analysis (%)      &..
£141.12
Brand: Nanographenex SKU: GX01AMP0102
WE43 Magnesium Alloy Average Particle Size: 15-50 um, SphericalParticle Size Distribution+53μm2.8%-53μm97.5% IngredientsY4.01%RE3.04%Zr0.51%Fe0.00713%Si0.00400%Cu0.00370%Ni0.00432%MgBalance Application Areas:Biomedical DevicesMotosport ApplicationsStructural Engine ComponentsChasis Compone..
£120.00
Brand: Nanographenex SKU: GX01EMP0125
Zinc (Zn) Micron PowderPurity: 99.9%, Size: -325 meshTechnical Properties:  PURITY99.9 %PARTICLE SIZE-325 meshCAS7440-66-6MELTING POINT419.5 °CBOILING POINT907 °CCRYSTAL STRUCTUREHexagonalDENSITY7.133 g/cm³MOHS HARDNESS @ 20ºC2.5COEFF. OF EXPANSION @ 20ºC39.7 x 10-6 Per °CELECTRIC RESISTIV..
£19.20
Brand: Nanographenex SKU: GX01MOMP0109
Zinc Oxide (ZnO) Micron PowderPurity: 99.5+%, Size: =325 Mesh, White Technical Properties:  PURITY99.5+%PARTICLE SIZE-325 meshCOMPOSITIONZn- 80.34, O- 19.66CAS1314-13-2MELTING POINT1975 °CCRYSTAL STRUCTUREHexagonalDENSITY5.606 g/cm³FORM   PowderAPPLICATIONSColorants, Co..
£30.24
Brand: Nanographenex SKU: GX01CMP0106
Zirconium Diboride (ZrB2) Micron PowderPurity: 99.5%, Size: 5 μm, Hexagonal Technical Properties:Purity (%)99.5   Colorblack   Average Particle Size (μm)5     Melting Point (°C)3040      Zeta Potential (mV)46,20&nbs..
£84.00
Brand: Nanographenex SKU: GX01CMP0107
Zirconium Nitride (ZrN) Micron PowderPurity: 99.9+%, Thickness: 1-5 μm, Cubic Technical Properties:Purity (%)99.9+Average Particle Size (μm)1-5Crystal StructurecubicApplications: Zirconium nitride powder is used in hardwares, daily-use hardware parts, and building materials. It is use..
£72.00
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