Metallic materials with significant elastic deformation capabilities are essential in various applications, especially where strain accommodation is crucial. Shape-memory alloys, particularly Ti-based ones, show promise for their high recoverable strains and mechanical flexibility, crucial for medical and aerospace fields. However, conventional Ti alloys with BCC structures face challenges of reduced superelasticity and the need for balancing weight with performance. The increasing demand for lightweight, functional materials under extreme conditions emphasizes the importance of advancements in these alloys to meet future needs.
Metallic materials that can undergo significant elastic deformation without plasticity or fracture are crucial for practical applications and hold potential for innovative strain-related property alterations through elastic strain engineering.
Ti-based shape-memory alloys offer a blend of affordability, corrosion resistance, and mechanical flexibility, making them particularly valuable in medical applications and promising in extreme conditions.
#shape-memory-alloys #ti-based-alloys #mechanical-properties #extreme-conditions #elastic-deformation
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