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  • TM11223 Titanium Alloy Plate Ti-3Al-8V-6Cr-4Mo-4Zr Grade 19 UNS R58640 Ti Beta-C

    • TM11223 Titanium Alloy Plate Ti-3Al-8V-6Cr-4Mo-4Zr Grade 19 UNS R58640 Ti Beta-C

    Catalogue Number TM11223
    Composition Ti-3Al-8V-6Cr-4Mo-4Zr
    Standard ASTM B265
    Form Plate
    Grade Grade 19, UNS R58640

    Titanium Alloy Plate Ti-3Al-8V-6Cr-4Mo-4Zr Grade 19 UNS R58640 Ti Beta-C is produced with a controlled multi-element composition that maintains its beta-phase stability. Stanford Advanced Materials (SAM) applies systematic SEM imaging and microstructure evaluation during quality control to monitor composition uniformity. The process minimises variability, ensuring the plate meets the ASTM B265 standard with consistent chemical and physical characteristics.

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    FAQ

    How does the Grade 19 UNS R58640 specification impact the performance of this titanium plate?

    The Grade 19 UNS R58640 specification defines tight composition limits that contribute to balanced mechanical properties and beta-phase stability. This results in improved performance in structural and high-temperature environments, enhancing the predictability of material behaviour under stress.

    What role does the Ti-3Al-8V-6Cr-4Mo-4Zr composition play in industrial applications?

    The multi-element composition facilitates beta-phase stabilisation, which enhances the alloy's toughness and workability. This precise formulation is critical for achieving consistent mechanical performance in demanding industrial applications, such as high-stress components or chemical process equipment.

    Which tests are typically used to verify the quality of these titanium alloy plates?

    Quality verification commonly involves microstructural analysis using SEM and chemical assays to assess composition uniformity. Tensile tests are also performed to ensure that the plate meets the ASTM B265 standard, where measurable properties confirm the alloy’s performance under mechanical stress.

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