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  • Pure Molybdenum, TZM Or MoLa Alloy?

    • Pure Molybdenum, TZM Or MoLa Alloy?

    Last updated on {{lastDate}}

    Molybdenum - Element Information, Properties

    SAM processes our molybdenum so that it meets the requirements of every application. By incorporating various alloying elements, we can control the following properties:

    • Physical properties (e.g. melting point, vapour pressure, density, electrical conductivity, thermal conductivity, coefficient of thermal expansion, specific heat capacity)
    • Mechanical properties (e.g. strength, fracture behaviour, creep resistance, ductility)
    • Chemical properties (corrosion resistance, etchability)
    • Machinability (e.g. cutting methods, formability, weldability)
    • Recrystallisation behaviour (recrystallisation temperature, embrittlement, ageing effects)

    Molybdenum & Molybdenum Alloys

    Additionally, by employing our proprietary customised manufacturing methods, we can modulate various other properties of molybdenum over a broad range of values. Consequently, molybdenum alloys with different performance ranges are precisely tailored to meet the requirements of each application. For further details, please visit Molybdenum Alloys.

    Designation of the Material

    Chemical Composition (weight per cent)

    Mo (pure)

    >99.97

    TZM

    0.5 % Ti / 0.08 % Zr / 0.01 - 0.04 % C

    Mo-Lanthanum Oxide (ML)

    ML

    0.3 % La2O3

    MLR (R = Recrystallised)

    0.7 % La2O3

    MLS (S = Stress-relieved)

    0.7 % La2O3

    MoILQ (ILQ = Lamp Quality)

    0.03 % La2O3

    MoNb

    MoNb10

    9.71 % Nb

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    About the author

    Chin Trento

    Chin Trento holds a bachelor's degree in applied chemistry from the University of Illinois. His educational background gives him a broad base from which to approach many topics. He has been working with writing advanced materials for over four years at Stanford Advanced Materials (SAM). His main purpose in writing these articles is to provide a free, yet quality resource for readers. He welcomes feedback on typos, errors, or differences in opinion that readers come across.

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    Mixed Metal Oxide expanded titanium anode mesh is one of the most technically advanced materials applied in electrochemical applications. As the name implies, the anode mesh is made from titanium material with a layer of mixed metal oxides coated on it; this is normally from ruthenium, iridium, or platinum. The mesh structure, which is a perforated or expanded metal sheet, adds to the surface area where electrochemical reactions occur, hence it is very effective in processes that require large current densities.

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    Functional Botanical Extracts: 6 Science-Backed Ingredients from Tradition to Innovation

    Explore 6 potent functional botanical extracts, including Ashwagandha and Tongkat Ali. Supported by modern science and traditional practices, they address stress, energy, and cognition. Discover how Stanford Advanced Materials (SAM) supplies these premium ingredients for your next breakthrough product.

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