激光打标对医用马氏体不锈钢表面组织和腐蚀性能的影响

IF 0.3 Q4 THERMODYNAMICS
N. G. Henriksen, O. Z. Andersen, M. Jellesen, T. Christiansen, M. Somers
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引用次数: 3

摘要

医疗器械行业要求通过激光打标在金属部件上使用唯一的设备标识(UDI)标签。一个常见的问题是,随着时间的推移,由于对比度的丧失,标记的视觉外观变得难以辨认。采用纳秒脉冲激光辐照在两种不同的马氏体不锈钢AISI 420F mod和420B上生长氧化层,比较了钢的化学成分(含和不含S)、功率密度和能量输入对氧化层生长的影响。腐蚀行为与激光能量输入密切相关。硫的存在对材料的耐蚀性产生负面影响,使激光加工参数的适用范围明显缩小。对于含硫AISI 420F钢,激光打标后表面形成了3 ~ 5 μm宽的凹坑,这可以解释为激光打标过程中产生的突出的MnS夹杂物的热降解。此外,在氧化层观察到大量开裂。标记的试样在形成的氧化层下面的薄区受到腐蚀。这种行为是由于向生长的氧化层提供Cr而导致氧化层附近区域Cr的损耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Laser Marking on Microstructure and Corrosion Performance of Martensitic Stainless Steel Surfaces for Biomedical Applications
Abstract The medical device industry demands unique device identification (UDI) tags on metallic components applied via laser marking. A common issue is that the visual appearance of the marking becomes poorly legible over time due to loss of contrast. Nanosecond pulsed laser irradiation was used to grow an oxide layer on two different martensitic stainless steels AISI 420F mod and 420B to compare the influences of the chemical composition of the steel (with and without S), power density, and energy input. The corrosion behavior was found to depend strongly on laser energy input. The presence of sulfur negatively affected the corrosion resistance and narrowed the applicable window for the laser processing parameters significantly. For the sulfur-containing AISI 420F steel, 3‒5 μm wide craters formed on the surface after laser marking, which is interpreted as thermal degradation of protruding MnS inclusions resulting from the laser marking process. Also, substantial cracking in the oxide layer was observed. The marked specimens suffered from corrosion in a thin zone below the formed oxide layer. This behavior is attributed to Cr-depletion in the zone adjacent to the oxide layer, resulting from providing Cr to the growing oxide layer.
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来源期刊
CiteScore
1.50
自引率
33.30%
发文量
43
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