使用选择性激光熔化 (SLM) 方法对 Ti-6Al-4V 股骨植入体性能的实验研究

Metals Pub Date : 2024-04-23 DOI:10.3390/met14050492
Wenjie Zhang, Hongxi Liu, Zhiqiang Liu, Yuyao Liang, Yi Hao
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引用次数: 0

摘要

用于设计和生产多孔植入体的选择性激光熔融(SLM)技术可以成功解决与在人体中使用固体植入体相关的应力屏蔽和无菌松动问题。本文采用正交实验优化了 Ti-6Al-4V (TC4) 材料 SLM 成型的工艺参数,研究了工艺参数对密度、微观形态和粗糙度的影响,并以粗糙度为评判标准确定了最佳工艺参数。在优化工艺参数的基础上,本文对 SLM 成型 TC4 合金试样的力学性能进行了实验研究。主要结论如下:通过极性分析得到了粗糙度的最佳组合,SLM 成型 TC4 合金试样的显微硬度更均匀,试样侧面和正面的显微硬度以及耐磨性均高于铸造试样,试样的屈服强度和抗拉强度高于 ASTM F136 标准和铸造标准,但伸长率不如标准,多孔试样在不同体积分数下的弹性模量和抗压强度均高于铸造试样。弹性模量和抗压强度都在人体骨骼要求的范围内。这项工作使利用 TC4 合金 SLM 模塑材料制造高性能多孔股关节假体成为可能。
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Experimental Study of Performance of Ti-6Al-4V Femoral Implants Using Selective Laser Melting (SLM) Methodology
Selective laser melting (SLM) technology used for the design and production of porous implants can successfully address the issues of stress shielding and aseptic loosening associated with the use of solid implants in the human body. In this paper, orthogonal experiments were used to optimize the process parameters for SLM molding of Ti-6Al-4V (TC4) material to investigate the effects of the process parameters on the densities, microscopic morphology, and roughness, and to determine the optimal process parameters using the roughness as a judging criterion. Based on the optimized process parameters, the mechanical properties of SLM-formed TC4 alloy specimens are investigated experimentally in this paper. The main conclusions are as follows: the optimal combination of roughness is obtained by polar analysis, the microhardness of SLM-molded TC4 alloy molded specimens is more uniform, the microhardness of specimens on the side and the front as well as the abrasion resistance is higher than that of casting specimens, the yield strength and tensile strength of specimens is higher than that of ASTM F136 standard and casting standard but the elongation is not as good as that of the standard, and the elasticity and compressive strength of porous specimens are higher than that of casting specimens at different volume fractions. The modulus of elasticity and compressive strength are within the range of human skeletal requirements. This work makes it possible to fabricate high-performance porous femoral joint implants from TC4 alloy SLM-molded materials.
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