Dynamic response and roughness control of surface materials on TC4 titanium alloy subjected to laser shock wave planishing

IF 2 3区材料科学 Q2 ENGINEERING, MECHANICAL

Surface Topography: Metrology and Properties Pub Date : 2024-05-08 DOI:10.1088/2051-672x/ad44bc

Lei Wu, Fengze Dai, Mengyue Wang, Xizhang Chen

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Abstract

In this study, ABAQUS was used to predict the dynamic response of surface materials on TC4 titanium alloy during laser shock wave planishing (LSWP). The experiments were conducted to evaluate the simulations. The results indicate that during the initial stage of LSWP, the contact status between the contact foil and the micro-protrusion changes from the one-dimensional stress state to the one-dimensional strain state. This causes the high-amplitude tensile residual stress to converge at the center of the flattened micro-protrusion surface. When treating specimens with high surface roughness, the application of a thin contact foil can significantly lower the height of micro-protrusions and lift the bottom of micro-depressions. This improves the plastic flow of micro-protrusions and prevents the convergence of tensile residual stress. Using a thick contact foil can help extend the pressure pulse duration and prevent the overall surface profile subsidence when treating specimens with lower surface roughness. The outcomes of the experiment and the simulation agree rather well. Additionally, a thick contact foil can reduce the build-up of tensile residual stress by reducing the contact pressure.

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激光冲击波刨削 TC4 钛合金表面材料的动态响应和粗糙度控制

本研究使用 ABAQUS 对 TC4 钛合金在激光冲击波刨削（LSWP）过程中表面材料的动态响应进行了预测。实验对模拟结果进行了评估。结果表明，在 LSWP 的初始阶段，接触箔与微突起之间的接触状态从一维应力状态变为一维应变状态。这导致高振幅拉伸残余应力聚集在扁平微挤压表面的中心。在处理表面粗糙度较高的试样时，使用薄接触箔可以显著降低微突起的高度，并抬高微凹陷的底部。这可以改善微突起的塑性流动，防止拉伸残余应力的汇聚。在处理表面粗糙度较低的试样时，使用厚接触箔有助于延长压力脉冲持续时间，防止整体表面轮廓下陷。实验结果和模拟结果相当吻合。此外，厚接触箔还能通过降低接触压力来减少拉伸残余应力的积累。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Surface Topography: Metrology and Properties Materials Science-Materials Chemistry

CiteScore

4.10

自引率

22.20%

发文量

183

期刊介绍： An international forum for academics, industrialists and engineers to publish the latest research in surface topography measurement and characterisation, instrumentation development and the properties of surfaces.