Mechanical property, corrosion behavior and cytocompatibility of CoCrMo for dental application: A comparative study of cast and laser powder bed fusion

IF 3.3 2区 医学 Q2 ENGINEERING, BIOMEDICAL
L.Y. Ma, F.Y. Sun, Y. Li, H. Yu
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Abstract

In this work, by employing powders sourced directly from the original ingot for additive manufacturing, we enabled a comparative overview of the performance between CoCrMo manufactured via laser powder bed fusion (LPBF) and those in their original cast condition. Microstructural analysis revealed that the cast (CT) alloy predominantly consisted of coarse grains with distribution of sigma phase, while the LPBF process resulted in a refined grain structure devoid of the sigma phase. The tensile strength tests demonstrated that the LPBF-derived CoCrMo alloy had substantially greater tensile strength, and ductility compared to CT alloy. Corrosion tests indicated superior corrosion resistance in the LPBF alloy, albeit with a lower metal ion release. In vitro assays confirmed that LPBF CoCrMo alloys displayed favorable cytocompatibility. Consequently, it is concluded that the CoCrMo alloy processed through laser powder bed fusion exhibited enhanced mechanical performance and corrosion resistance. These improvements are primarily attributed to the transformation of the original coarse columnar grain structure through the LPBF technique.
牙科用 CoCrMo 的机械性能、腐蚀行为和细胞相容性:铸造与激光粉末床熔化的比较研究。
在这项工作中,我们采用直接取自原始铸锭的粉末进行添加剂制造,对通过激光粉末床熔融(LPBF)制造的钴铬钼合金与原始铸造状态下的钴铬钼合金的性能进行了比较。微观结构分析表明,铸造(CT)合金主要由分布有σ相的粗晶粒组成,而 LPBF 工艺则产生了没有σ相的精细晶粒结构。拉伸强度测试表明,与 CT 合金相比,LPBF 衍生的 CoCrMo 合金具有更高的拉伸强度和延展性。腐蚀测试表明,尽管金属离子释放量较低,但 LPBF 合金的抗腐蚀性更强。体外试验证实,LPBF CoCrMo 合金具有良好的细胞相容性。因此,通过激光粉末床熔融技术加工的 CoCrMo 合金具有更高的机械性能和耐腐蚀性。这些改进主要归功于 LPBF 技术对原始粗柱状晶粒结构的改造。
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来源期刊
Journal of the Mechanical Behavior of Biomedical Materials
Journal of the Mechanical Behavior of Biomedical Materials 工程技术-材料科学:生物材料
CiteScore
7.20
自引率
7.70%
发文量
505
审稿时长
46 days
期刊介绍: The Journal of the Mechanical Behavior of Biomedical Materials is concerned with the mechanical deformation, damage and failure under applied forces, of biological material (at the tissue, cellular and molecular levels) and of biomaterials, i.e. those materials which are designed to mimic or replace biological materials. The primary focus of the journal is the synthesis of materials science, biology, and medical and dental science. Reports of fundamental scientific investigations are welcome, as are articles concerned with the practical application of materials in medical devices. Both experimental and theoretical work is of interest; theoretical papers will normally include comparison of predictions with experimental data, though we recognize that this may not always be appropriate. The journal also publishes technical notes concerned with emerging experimental or theoretical techniques, letters to the editor and, by invitation, review articles and papers describing existing techniques for the benefit of an interdisciplinary readership.
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