Effect of laser power on the microstructural behaviour and strength of modified laser deposited Ti6Al4V+Cu alloy for medical application

SPIE LASE Pub Date : 2016-04-22 DOI:10.1117/12.2214989

M. Erinosho, E. Akinlabi

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引用次数: 2

Abstract

The excellent biocompatibility property of Grade 5 titanium alloy has made its desirability largely increasing in the field of biomedical. The titanium alloy (Ti6Al4V) was modified with the addition of 3 weight percent (wt %) copper via a laser deposition process using the Ytterbium fiber laser with a wavelength of 1.047 μm. Therefore, this paper presents the effect of laser power on the microstructural behaviour and strength of the modified Ti6Al4V+Cu alloy. The laser powers were varied between 600 W and 1600 W respectively while all other parameters such as the scanning speed, powder flow rates and gas flow rates were kept constant. The melt pool and width of the deposited alloy increases as the laser power was increased. The α-lamella was observed to be finer at low laser power, and towards the fusion zone, Widmanstettan structures were fused and become smaller; and showing an evidence of α-martensite phases. The strength of the modified alloy was derived from the hardness values. The strength was observed to increase initially to a point as the laser power increases and afterwards decreased as the laser power was further increased. The improved Ti6Al4V+Cu alloy can be anticipated for biomedical application.

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激光功率对医用改性激光沉积Ti6Al4V+Cu合金显微组织行为和强度的影响

5级钛合金优异的生物相容性使其在生物医学领域的应用日益广泛。采用波长为1.047 μm的镱光纤激光器对Ti6Al4V钛合金(Ti6Al4V)进行了添加重量为3% (wt %)的铜的激光沉积改性。因此，本文研究了激光功率对改性Ti6Al4V+Cu合金显微组织行为和强度的影响。在保持扫描速度、粉末流速和气体流速等参数不变的情况下，激光功率分别在600 ~ 1600 W之间变化。随着激光功率的增大，熔池增大，熔池宽度增大。在低激光功率下，α-片层变细，向熔合区方向，Widmanstettan结构发生熔合并变小;并表现出α-马氏体相的迹象。改性合金的强度由硬度值得出。随着激光功率的增加，强度开始增加到一定程度，随后随着激光功率的进一步增加而下降。改进后的Ti6Al4V+Cu合金有望在生物医学领域得到应用。

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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