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    We appreciate your ongoing support. As a token of our gratitude, Stanford Advanced Materials is providing exclusive discounts on a selection of high-purity materials – including non-ferrous metals, rare earth oxide powders, fluorides and industrial‐grade magnets – to assist academic researchers and manufacturers in achieving measurable improvements in scientific research and production.

    We are also offering free samples and discounted materials to university departments, laboratories and student clubs. We request only that you reference our website – either by including a hyperlink on your site or by citing it in your blog or academic publication where our materials are employed.

    Interested?

    Contact us at sales@SAMaterials.com or call (949) 407-8904 for a discounted quote on the stock items listed below.

    Silicon Powder (Si Powder)

    Material: Cerium Oxide Powder

    CAS: 1306-38-3

    Purity: ≥99.9%

    In stock: >100 kg

    Lead time: 3–7 days (subject to current quantity availability)

    Material: Silicon Metal Powder

    CAS: 7440-21-3

    Purity: ≥99.9%

    In stock: >30 kg

    Lead time: 3–7 days (subject to current quantity availability)
    Fused Magnesia (Fused Magnesium Oxide) Powder Tantalum Pentoxide Powder

    Material: Fused Magnesia Powder

    CAS: -

    Purity: 99.5%~99.9%

    In stock: >25 kg

    Lead time: 3–7 days (subject to current quantity availability)

    Material: Tantalum Pentoxide Powder

    CAS: 1314-61-0

    Purity: 99.9%, 99.99%

    In stock: >20 kg

    Lead time: 3–7 days (subject to current quantity availability)
    Ytterbium Oxide (Yb2O3) (CAS No. 1314-37-0) Thulium Oxide (Tm2O3) Powder (CAS No. 12036-44-1)

    Material: Ytterbium Oxide Powder

    CAS: 1314-37-0

    Purity: 99.9%, 99.99%, 99.995%, 99.998%

    In stock: >100 kg, 20% discount from market value

    Lead time: 3–7 days (subject to current quantity availability)

    Material: Thulium Oxide Powder

    CAS: 12036-44-1

    Purity: >99.9%

    In stock: >30 kg, 25% discount from market value

    Lead time: 3–7 days (subject to current quantity availability)
    Terbium Oxide (Tb4O7) Powder

    Material: Terbium Oxide Powder

    CAS: 12037-01-3

    Purity: ≥99.95%

    In stock: >35 kg, 25% discount from market value

    Lead time: 3–7 days (subject to current quantity availability)

    Material: Molybdenum Bar

    Purity: Mo≥99.95% & TZM

    Size: >4.0mm Dia. x L

    In stock: 2PC (0.4 kg), 50% discount

    Lead time: 3–7 days (subject to current quantity availability)
    Gadolinium Oxide (Gd2O3) / Gadolinia Powder (CAS No. 12064-62-9) Yttrium Oxide, Yttria (Y2O3) Powder (CAS No. 1314-36-9)

    Material: Gadolinium Oxide Powder

    CAS: 12064-62-9

    Purity: >99.9%

    In stock: >300 kg, 20% discount from market value

    Lead time: 3–7 days (subject to current quantity availability)

    Material: Yttrium Oxide Powder

    CAS: 1314-36-9

    Purity: ≥99.95%

    In stock: >100 kg, 20% discount from market value

    Lead time: 3–7 days (subject to current quantity availability)
     
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    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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    Stanford Advanced Materials Provided CBN Solutions For Aerospace Tooling

    Stanford Advanced Materials (SAM) reported a case study on the use of cubic boron nitride (cBN). cBN is a material with thermal stability and chemical inertness. SAM’s cBN solutions assisted a manufacturer in the aerospace industry. The manufacturer resolved issues with tooling wear during high-precision machining of hardened iron alloys. The case study was compiled following systematic experimental analyses.

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    Stanford Advanced Materials (SAM) reports a case study on the application of Wurtzit-Bornitrid (WBN). The material is utilised for its hardness, thermal stability and impact resistance. SAM provided WBN-based tool solutions to a precision machining company to resolve tool wear issues during intermittent turning of hardened steels.

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