Lu Yao, Yang LiJun, Wang MaoLu, Wang Yang
Appl Opt. 2020 Sep 1;59(25):7652-7659. doi: 10.1364/AO.398101.
A developed 2D finite element model to describe temperature distribution, stress distribution, and ablation depth by ultraviolet nanosecond (ns) pulsed laser cleaning is presented. In this paper, we indicate that thermal stress is the primary mechanism in the paint removal process by laser cleaning and successfully simulate the ultraviolet nanosecond (ns) pulsed laser cleaning by the finite element method. Notably, the formation of plasma, plasma shielding effect on the incident laser fluence, temperature-dependent absorptivity, and absorption coefficient of the paint layer are crucial factors considered in this model. In addition, the tailored model can predict theoretical cleaning of thresholds based on the mechanism of thermal stress. According to the temperature, stress distribution, and cleaning depth in paint and substrate at various laser fluence in this model, the corresponding cleaning threshold is 7/ in theory. In a word, it is expected that this study could provide a theoretical reference regarding laser cleaning paint layers and pave the way for reducing substrate damage in various industrial applications.
本文提出了一个二维有限元模型,用于描述紫外纳秒(ns)脉冲激光清洗过程中的温度分布、应力分布和烧蚀深度。在本文中,我们指出热应力是激光清洗去除涂层过程中的主要机制,并通过有限元方法成功模拟了紫外纳秒(ns)脉冲激光清洗。值得注意的是,该模型考虑了等离子体的形成、等离子体对入射激光能量密度的屏蔽效应、温度依赖性吸收率以及涂层的吸收系数等关键因素。此外,该定制模型可以基于热应力机制预测理论清洗阈值。根据该模型中不同激光能量密度下涂层和基底中的温度、应力分布以及清洗深度,理论上相应的清洗阈值为7/。总之,期望本研究能够为激光清洗涂层提供理论参考,并为减少各种工业应用中基底损伤铺平道路。