生物金属合金在选择性激光熔化增材制造中的特点

M. Mergulhão, M. Neves
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引用次数: 9

摘要

由于增材制造(AM)工艺的扩展,生物材料粉末正处于高度发展之中。选择性激光熔化(SLM)是一种特殊的AM技术,它通过激光束完全熔化粉末床层。研究原料(粉末合金)的适当物理性质是本研究的目的。采用钴铬钼(Co-Cr-Mo)合金对不同粒度范围(D1 12-19μm、D2 20-46μm和D3 76-106μm)的气体雾化粉末的物理、化学性能和热分析进行了概述。SLM制造的通常粒度范围粉末尺寸的标准拉伸试样提供了生物相容性Co-Cr-Mo合金的机械、化学和热性能。物理性能表明,20至50μm范围内的粉末具有更好的流动能力和堆积密度,这是SLM加工的相关特性。SLM工艺制造在健康领域提供了合适的机械性能,并保持了Co-Cr-Mo合金的生物相容性。
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Characteristics of Biometallic Alloy to Additive Manufacturing Using Selective Laser Melting Technology
Biomaterial powders are in high development due to expansion of additive manufacturing (AM) processes. Selective laser melting (SLM) is a particular AM technology, which completely melts a powder bed layer by laser beam. Investigations of appropriated physical properties of feedstock (powder alloy) were the aim of this study. Cobalt-chromium-molybdenum (Co-Cr-Mo) alloy was used to overview of gas-atomized powder properties in different granulometric ranges (D1 12 - 19 μm, D2 20 - 46 μm and D3 76 - 106 μm), as their: physical, chemical properties and thermal analysis. SLM manufactured standard tensile specimens of usually granulometric range powder size provided mechanical, chemical and thermal properties of biocompatible Co-Cr-Mo alloy. The physical properties showed that powders in the range of 20 to 50 μm provide a better flow ability and packed density, which are relevant characteristics to SLM processing. Manufacturing by SLM process provided suitable mechanical properties in the health area, as well as, maintained the biocompatible properties of the Co-Cr-Mo alloy.
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