Improvement of Laser Induced Residual Stress Distributions via Shock Waves

机译：通过冲击波改善激光诱导的残余应力分布

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Laser materials processing normally induces a certain residual stress distribution in the target material. Distributions favoring microcrack propagation lead to reduced fatigue life of the material. This paper investigates the feasibility of altering the stress field by using underwater shock waves in the micron scale. Shock pressure was computed and the stress analysis was conducted, in which both pressure and strain rate dependence of the plastic deformation was considered. It was shown that laser induced underwater shock waves could impart compressive stresses about 40 microns into metallic materials such as aluminum when a 12 micron laser beam was used. Experimental results of shock processing and its combination with drilling at micron scale are also presented.

机译：激光材料加工通常会在目标材料中引起一定的残余应力分布。有利于微裂纹扩展的分布导致材料的疲劳寿命降低。本文研究了使用微米级水下冲击波改变应力场的可行性。计算冲击压力并进行应力分析，其中考虑了塑性变形的压力和应变率依赖性。结果表明，当使用12微米激光束时，激光诱导的水下冲击波可以向金属材料（例如铝）施加约40微米的压应力。还介绍了冲击处理及其与微米级钻孔相结合的实验结果。

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来源
《Laser Materials Processing Conference ICALEO 2000, Oct 2-5, 2000, Dearborn, MI USA》|2000年|p.E.183-192|共10页
会议地点 Dearborn MI(US);Dearborn MI(US);Dearborn MI(US)
作者
Wenwu Zhang; Y. Lawrence Yao;
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作者单位

Department of Mechanical Engineering Columbia University, New York, NY 10027;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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1. Study on stress-wave propagation and residual stress distribution of Ti-17 titanium alloy by laser shock peening [J] . Pei Yatian, Duan Chenghong Journal of Applied Physics . 2017,第19期

机译：Ti-17钛合金的应力冲击波传播和残余应力分布的激光冲击强化研究
2. Dynamic response and residual stress fields of Ti6Al4V alloy under shock wave induced by laser shock peening [J] . Sun Rujian, Li Liuhe, Zhu Ying, Modelling and simulation in materials science and engineering . 2017,第6期

机译：激光冲击诱导冲击波下Ti6Al4V合金的动态响应和残余应力场
3. Study on the Distribution of Residual Stresses for Nondestructive Marking by Laser Shock Wave [J] . J.Z. Lu, K.Y. Luo, P.P. Yuan, Key Engineering Materials . 2010,第期

机译：激光冲击波无损标记残余应力分布的研究
4. Improvement of laser induced residual stress distributions via shock waves [C] . Wenwu Zhang, Y. Lawrence Yao International Congress on Applications of Lasers Electro-Optics . 2000

机译：通过冲击波改进激光诱导的残余应力分布
5. Finite element analysis of residual stress field induced by laser shock peening. [D] . Nam, Taeksun. 2002

机译：激光冲击喷丸引起的残余应力场的有限元分析。
6. Simulation and Experimental Study on Residual Stress Distribution in Titanium Alloy Treated by Laser Shock Peening with Flat-Top and Gaussian Laser Beams [O] . Xiang Li, Weifeng He, Sihai Luo, 2019

机译：平顶高斯激光束冲击冲击处理钛合金残余应力分布的模拟与实验研究
7. Study on the Distribution of Residual Stresses for Nondestructive Marking by Laser Shock Wave [O] . J. Z. Lu 2016

机译：激光冲击波无损标记残余应力分布的研究
8. Measurement and Understanding of the Level and Effect of Residual Stresses Induced by the Laser Shock Peening Process [R] . Greenacre, P. , Schofield, J. , McElhone, M. , 2005

机译：激光冲击强化过程中残余应力水平和效应的测量与认识

Improvement of Laser Induced Residual Stress Distributions via Shock Waves

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