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About this Abstract
Meeting	MS&T21: Materials Science & Technology
Symposium	Manufacturing and Processing of Advanced Ceramic Materials
Presentation Title	Surface Stengthening of Single-crystal Alumina by High-temperature Laser Shock Peening
Author(s)	Fei Wang, Xueliang Yan, Lei Liu, Michael Nastasi, Yongfeng Lu, Bai Cui
On-Site Speaker (Planned)	Fei Wang
Abstract Scope	This study reports a novel process of high-temperature laser shock peening (HTLSP) for surface strengthening of single-crystal ceramics such as sapphire and reveals its fundamental mechanisms. HTLSP at 1200 °C can induce a high compressive residual stress on the surface of sapphire while minimizing the damage of laser-driven shock waves. Transmission electron microscopy characterizations revealed high dislocation densities near the surface, suggesting that plastic deformation at an ultrahigh strain rate was generated by the high shock wave pressure. The HTLSP-induced compressive residual stress can significantly improve the hardness and fracture toughness of sapphire while maintaining its outstanding optical transmittance.

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