The influence mechanism of fractal design method on mechanical properties and corrosion behavior of sheet Gyroid porous structures formed by LPBF

IF 3.7 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Communications Pub Date : 2024-09-07 DOI:10.1016/j.mtcomm.2024.110373
Xiu Ye, Xiaojie Shi, Xiaojin Miao, Peipei Lu, Meiping Wu
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Abstract

In order to meet the various performance requirements of bone implants, it is necessary to design a porous structure with multi-scale pores. In this paper, a set of 2-level fractal porous structures and 1-level porous structures P80 and P85 were designed based on the sheet-Gyroid porous structure. The influence of porosity and fractal design on the forming quality, mechanical properties and corrosion resistance of the porous structures was investigated. The results showed that the porosity deviation of the 2-level porous structures was in the range of 17.88–20.79 %, which was about twice that of the 1-level porous structures. The elastic gradient of 2-level fractal porous structures varied from 1.654 GPa to 3.636 GPa, the compressive offset strength ranged from 50.9 MPa to 111.5 MPa, and the first maximum compressive strength was in the range of 57.8 MPa to 136.6 MPa, all of which were lower than those of 1-level porous structures with similar porosity, which extended the design range of mechanical properties of porous structures to a certain extent, and was conducive to avoiding the stress shielding effect of implants. Based on the study of mechanical properties of 2-level fractal porous structures, the mechanical properties prediction models were constructed based on the improved G-A model. In addition, it was found that the corrosion resistance of 2-level fractal porous structures was much higher than that of 1-level porous structures, and the corrosion resistance decreased with the increase of porosity. The fractal design of TPMS structure can effectively expand the design space of porous bone implants.
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分形设计法对 LPBF 形成的片状 Gyroid 多孔结构的力学性能和腐蚀行为的影响机理
为了满足骨植入物的各种性能要求,有必要设计一种具有多尺度孔隙的多孔结构。本文在片状-Gyroid 多孔结构的基础上,设计了一套 2 级分形多孔结构和 1 级多孔结构 P80 和 P85。研究了孔隙率和分形设计对多孔结构成型质量、力学性能和耐腐蚀性能的影响。结果表明,2 级多孔结构的孔隙率偏差在 17.88-20.79 % 之间,约为 1 级多孔结构的两倍。2 层分形多孔结构的弹性梯度在 1.654 GPa 至 3.636 GPa 之间,抗压偏移强度在 50.9 MPa 至 111.5 MPa 之间,第一最大抗压强度在 57.8 MPa 至 136.6 MPa 之间,均低于孔隙率相近的 1 层多孔结构,在一定程度上扩展了多孔结构力学性能的设计范围,有利于避免植入体的应力屏蔽效应。在对 2 层分形多孔结构力学性能研究的基础上,基于改进的 G-A 模型构建了力学性能预测模型。此外,研究还发现 2 级分形多孔结构的耐腐蚀性能远高于 1 级多孔结构,且耐腐蚀性能随孔隙率的增加而降低。TPMS 结构的分形设计能有效拓展多孔骨植入物的设计空间。
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
Materials Today Communications
Materials Today Communications Materials Science-General Materials Science
CiteScore
5.20
自引率
5.30%
发文量
1783
审稿时长
51 days
期刊介绍: Materials Today Communications is a primary research journal covering all areas of materials science. The journal offers the materials community an innovative, efficient and flexible route for the publication of original research which has not found the right home on first submission.
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