Titlebook: Laser Shocking Nano-Crystallization and High-Temperature Modification Technology; Xudong Ren Book 2015 Springer-Verlag Berlin Heidelberg 2

violate

LEVY

Book 2015ing temperature and exposure time on stress thermal relaxation and the influence of compressive stress on the stress intensity factor of hole-edge cracks by high strain rate laser shock processing are also analyzed. A new type of statistical data model to describe the fatigue cracking growth with li

制度

手勢

Laser Shocking Nano-Crystallization and High-Temperature Modification Technology

拘留

Laser Shocking Nano-Crystallization and High-Temperature Modification Technology978-3-662-46444-1

STYX

dual compressive stress in high-temperature modifications.In.The aim of this book is to present foundational research on the nano-crystallization, high-temperature modification, micro-structure evolution and plastic deformation induced by laser shock processing. In this regard, the focus is on heat-

Kidney-Failure

Thymus

Influence of LSP on Stress Intensity Factor of Hole-Edge Crack,the effects of the reliability and the confidence level to the fracture growth. Many materials have displayed pronounced improvements in fatigue life after LSP. It has shown that LSP treatment improves the materials mechanical properties, fatigue resistance, foreign object damage (FOD), and fatigue life.

鴿子

Book 2015astic deformation induced by laser shock processing. In this regard, the focus is on heat-resistant steel, aluminum alloy, Ti alloys and Ni-based alloys, offering valuable scientific insights into the industrial applications of laser shock processing (LSP) technology. The book addresses various topi

大約冬季

LSP Numerical Simulation,stance, the residual stress induced by laser shock processing (LSP) and the thermal relaxation behaviors of residual stress in Ni-based alloy GH4169 were investigated by means of three-dimensional nonlinear FE analysis. Fracture analysis software and crack growth model have found the application in FE analysis.