Transient Elastic Stress Development During Laser Scribing of Ceramics

Heat Transfer: Volume 3 Pub Date : 1999-11-14 DOI:10.1115/imece1999-1081

Thomas M. Mallison, M. Modest

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Abstract

Lasers are emerging as a valuable tool for shaping and cutting hard and brittle ceramics. Unfortunately, the large, concentrated heat flux rates that allow the laser to efficiently cut and shape the ceramic also result in large localized thermal stresses in a small heat-affected zone. These notable thermal stresses can lead to micro-cracks, a decrease in strength and fatigue life, and possibly catastrophic failure. In order to assess where, when, and what stresses occur during laser scribing, an elastic stress model has been incorporated into a three-dimensional scribing and cutting code. First, the code predicts the temporal temperature fields and the receding surface of the ceramic. Then, using the scribed geometry and temperature field, the elastic stress fields are calculated as they develop and decay during the laser scribing process. The analysis allows the prediction of stresses during continuous wave and pulsed laser operation, a variety of cutting speeds and directions, and various shapes and types of ceramic material. The results of the analysis show substantial tensile stresses develop over a thick layer below and parallel to the surface, which may be the cause of experimentally observed subsurface cracks.

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陶瓷激光刻划过程中瞬态弹性应力的发展

激光正在成为一种有价值的工具，用于塑造和切割硬脆陶瓷。不幸的是，大，集中的热流率，使激光有效地切割和塑造陶瓷也导致大的局部热应力在一个小的热影响区。这些显著的热应力会导致微裂纹，降低强度和疲劳寿命，并可能导致灾难性的破坏。为了评估激光切割过程中发生应力的位置、时间和性质，将弹性应力模型纳入三维切割和切割代码中。首先，该代码预测了陶瓷的时间温度场和后退表面。然后，利用刻划的几何形状和温度场，计算了激光刻划过程中弹性应力场的发展和衰减。该分析允许在连续波和脉冲激光操作，各种切割速度和方向，以及各种形状和类型的陶瓷材料的应力预测。分析结果表明，在与表面平行的厚层上产生了大量的拉应力，这可能是实验观察到的地下裂纹的原因。

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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Heat Transfer: Volume 3

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