Pulsed laser cleaning of aluminium-magnesium alloys: effect of surface modifications on adhesion

High-Power Laser Ablation Pub Date : 2008-05-08 DOI:10.1117/12.782989

M. Autric, R. Oltra

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引用次数: 5

Abstract

Surface cleaning is a key step in many industrial processes and especially in laser surface treatments. During laser cleaning of metallic alloys using pulsed lasers, surface modification can be induced due to transient thermal effect. In ambient atmospheric conditions, an oxidation of the cleaned surface can be detected. The aim of this work was to characterize this transient oxidation that can occur below the laser energy domain leading to any phase change (melting, ablation) of the cleaned substrate. A Q-switched Nd:YAG laser (1.06 μm) with 10 ns pulse duration was used for this study. X-ray photoelectron spectroscopy and secondary ion mass spectroscopy were used for surface analysis of irradiated samples. Thermal oxidation took place on the aluminium-magnesium alloy (5000 series) during the irradiation in air (fluence range 0.6-1.4 Jcm-2). It has been demonstrated that this 10 ns laser thermal oxidation and the steady state thermal oxidation have the same mechanism. When the laser fluence reached 1 J cm -2 , the oxide formed by the thermal oxidation became in a large extent crystalline and its outer part was entirely covered by a continuous magnesium oxide layer.

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铝镁合金的脉冲激光清洗:表面修饰对附着力的影响

在许多工业过程中，特别是在激光表面处理中，表面清洗是一个关键步骤。在使用脉冲激光对金属合金进行激光清洗时，由于瞬态热效应会引起表面改性。在环境大气条件下，可以检测到清洁表面的氧化。这项工作的目的是表征这种瞬态氧化，这种氧化可能发生在激光能量域以下，导致清洁基底的任何相变(熔化、烧蚀)。采用脉冲时间为10ns的调q Nd:YAG激光器(1.06 μm)。采用x射线光电子能谱和二次离子质谱对辐照样品进行表面分析。铝镁合金(5000系列)在空气(影响范围0.6 ~ 1.4 Jcm-2)辐照过程中发生热氧化。结果表明，10ns激光热氧化与稳态热氧化具有相同的机理。当激光通量达到1 J cm -2时，热氧化形成的氧化物在很大程度上变成结晶，其外部完全被连续的氧化镁层覆盖。

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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High-Power Laser Ablation

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