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  • AC8730 Alumina Crucible, Al2O3 Crucible Conical, 95%, 15 mL

    • AC8730 Alumina Crucible, Al2O3 Crucible Conical, 95%, 15 mL

    Catalogue Number AC8730
    Material Alumina
    Form Crucible
    Purity 95%
    Density 3.7-3.9 g/cm³

    Alumina Crucible, Al2O3 Crucible Conical, 95%, 15 mL is manufactured using refined alumina with strictly controlled 95% purity. Stanford Advanced Materials (SAM) applies systematic process controls, including X-ray diffraction and surface morphology evaluation, to ensure dimensional accuracy and material consistency. Testing protocols are executed in dedicated facilities to monitor sintering uniformity and microstructural integrity, which supports its performance in precise thermal processing environments.

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    FAQ

    How does the operating temperature limit influence the use of this crucible in high-temperature processes?

    The specified operating temperature of ≤1500 °C ensures that the crucible maintains structural integrity during thermal cycles. This thermal limit is critical for processes that require controlled heating, and it minimises risks associated with thermal shock and deformation. Contact us for further technical details.

    What role do the high compressive and flexural strengths play in material processing operations?

    The high compressive strength (∼1800–2200 MPa) and flexural strength (≥300 MPa) provide resistance against mechanical stress and thermal cycling. These properties ensure the crucible can withstand repeated heating and mechanical handling in laboratory or industrial environments, thereby promoting process consistency.

    Why is the defined density range important for the crucible’s performance?

    A density range of 3.7–3.9 g/cm³ ensures a uniform microstructure, which is vital for predictable thermal behaviour and mechanical durability. Consistent density aids in even heat distribution and reduces the likelihood of localised stress, critical for high-temperature material synthesis.

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