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MSE PRO 3N5 (99.95%) Molybdenum (Mo) Pellets Evaporation Materials– MSE Supplies LLC

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3N5 (99.95%) Molybdenum (Mo) Pellets Evaporation Materials - MSE Supplies LLC

MSE PRO 3N5 (99.95%) Molybdenum (Mo) Pellets Evaporation Materials

SKU: TA2931

  • £16200
  • Save £1900



MSE PRO™ 3N5 (99.95%) Molybdenum (Mo) Pellets Evaporation Materials

The vast majority of molybdenum (Mo) is used in metallurgical applications. Mo-base alloys offer high stability, high creep resistance, high thermal conductivity and exceptional strength at high temperature, which make them suitable for refractory applications including fission and fusion reactors, rocket engine nozzles, missiles, turbines, furnace structural components, and forging dies. Molybdenum coatings have attracted much attention as the candidates of the sliding materials due to their excellent wear resistance properties, which has been ascribed to a lubricating transfer film formed on the wear tracks. It is also evaporated under vacuum to make advanced sensors, semiconductors and displays.

The dimensions and purities can be customized upon request. Please contact us for customization or bulk orders.

Name Molybdenum
Symbol Mo
Atomic Number 42
CAS # 7439-98-7
Molecule Weight (g/mol) 95.96
Color/Appearance Grey, Metallic
Purity ≥99.95%, 3N5
Melting Point (°C) 2,617
Thermal Conductivity (W/m.K) 139 
Coefficient of Thermal Expansion (/K)

4.8 x 10-6

Theoretical Density (g/cm3) 10.2
Z Ratio 0.257
E-Beam Excellent
E-Beam Crucible Liner Material Graphite
Temp. (°C) for Given Vap. Press. (Torr) 10-8:  1,592
10-6:  1,822
10-4:  2,117

MSE Supplies offers a variety for crucibles for material evaporation. We can customize the dimensions based on your need.

References

1. Activation analysis of deformation in evaporated molybdenum thin films. Journal of Physics D: Applied Physics 36, no. 7 (2003): 884.

2. Probabilistic design of a molybdenum-base alloy using a neural network. Scripta Materialia 146 (2018): 82-86.

3. Effect of Mo coating on the interface and mechanical properties of SiC fiber reinforced Ti6Al4V composites. Materials Science and Engineering: A 550 (2012): 286-292.