Effect of process parameters on the corrosion kinetics and mechanism of nanosecond laser surface structured titanium alloy (Ti6Al4V)

IF 7.5 Q1 CHEMISTRY, PHYSICAL
Dileep Madapana , Ravi Bathe , Indranil Manna , Jyotsna Dutta Majumdar
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Abstract

In this study, laser surface structuring (LSS) of Ti6Al4V was carried out using an Nd:YLF laser with a second harmonic wavelength of 527 nm and a pulse duration of 100 ns at varied laser fluence, scan speed, and line spacing. A detailed study of the effect of process parameters on surface topography, microstructure, composition, phase, contact angle, electrochemical behavior, and bioactivity was undertaken. Nanosecond pulsed laser irradiation with overlapping resulted in the formation of linear continuous grooves on the surface due to ablation/evaporation of materials. There is the formation of oxides of titanium (TiO2 and Ti2O3) whose mass fractions varied with process parameters. The average microhardness of the laser-structured region was improved (393 VHN - 535 VHN) as compared to the as-received Ti6Al4V (303 VHN). The contact angle of simulated body fluid (SBF) against the structured surface (58°- 123°) showed increased contact angle as compared to as-received samples (50°). The laser surface structuring exhibited a superior corrosion resistance property (in SBF) as compared to as-received Ti6Al4V. The mechanism of corrosion behavior was established by electrochemical impedance spectroscopic study (in SBF). The optimum process parameter for the LSS of Ti6Al4V with enhanced hardness and corrosion resistance was derived. The LSS surface processed under the optimum parameters measured by immersing in SBF revealed a higher deposition of calcium phosphate as compared to the as-received Ti6Al4V.

工艺参数对纳秒激光表面结构钛合金 (Ti6Al4V) 腐蚀动力学和机理的影响
本研究使用二次谐波波长为 527 nm、脉冲持续时间为 100 ns 的 Nd:YLF 激光器,在不同的激光通量、扫描速度和线间距条件下,对 Ti6Al4V 进行了激光表面结构化 (LSS)。详细研究了工艺参数对表面形貌、微观结构、成分、相位、接触角、电化学行为和生物活性的影响。由于材料的烧蚀/蒸发,重叠的纳秒脉冲激光照射导致表面形成了线性连续沟槽。形成了钛的氧化物(TiO2 和 Ti2O3),其质量分数随工艺参数的变化而变化。与接收的 Ti6Al4V(303 VHN)相比,激光结构区域的平均显微硬度有所提高(393 VHN - 535 VHN)。模拟体液 (SBF) 与结构化表面的接触角(58°- 123°)与接收样品(50°)相比有所增加。与原样相比,激光表面结构化 Ti6Al4V(在 SBF 中)表现出更优越的耐腐蚀性能。通过电化学阻抗光谱研究(在 SBF 中)确定了腐蚀行为的机理。得出了提高 Ti6Al4V LSS 硬度和耐腐蚀性的最佳工艺参数。通过在 SBF 中浸泡测量,在最佳参数下加工的 LSS 表面显示,与收件后的 Ti6Al4V 相比,磷酸钙沉积量更高。
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
CiteScore
8.10
自引率
1.60%
发文量
128
审稿时长
66 days
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