铂合金的增材制造

IF 1.7 4区化学 Q4 CHEMISTRY, PHYSICAL

Johnson Matthey Technology Review Pub Date : 2022-01-01 DOI:10.1595/205651323x16691084445762

U. E. Klotz, Frank R. König

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引用次数: 0

摘要

在过去的十年里，珠宝合金的增材制造得到了积极的研究。对黄金和铂金首饰合金进行了一些但有限的研究。由于熔模铸造的技术挑战，铂金越来越受到关注。本文在片状材料上对典型的铂金首饰合金进行了激光跟踪实验。通过金相分析研究了合金成分对激光轨迹宽度和深度的影响。通过制备专用试样，确定了典型950Pt首饰合金LPBF工艺的最佳工艺参数。在较宽的工艺参数范围内，密度可达99.8%。然而，在真实珠宝零件的情况下，结果密度被发现在很大程度上取决于零件的几何形状和所选择的支撑结构。支撑必须考虑到零件相对于激光构建方向和构建板上的方向的几何方向。局部过热会在这些区域产生气孔。因此，支架在热管理中起着重要的作用，必须针对每个部件进行优化。以一个典型的珠宝戒指样品为例，成功地展示了合适的支撑设计。

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Additive Manufacturing of Platinum Alloys

Additive manufacturing of jewellery alloys has been actively investigated during the last 10 years. Several, but limited studies have been conducted on gold and platinum jewellery alloys. Platinum is of increased interest due to the technological challenges in investment casting. In the present paper, typical platinum jewellery alloys have been tested by laser track experiments on sheet materials. The effect of alloy composition on width and depth of the laser tracks was studied by metallography. Optimum parameters of the LPBF process were determined for a typical 950Pt jewellery alloy by the preparation of dedicated test samples. Densities of >99.8% were reached for a wide range of processing parameters. However, in case of real jewellery parts the resulting density was found to depend significantly on the part geometry and on the chosen support structure. The supports have to take into account the geometrical orientation of the part relative to the laser build direction and the orientation on the build plate. Local overheating gives rise to porosity in these areas. Therefore, the supports play an important role in the thermal management and have to be optimized for each part. The design of suitable supports was successfully demonstrated for a typical jewellery ring sample.

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来源期刊

Johnson Matthey Technology Review CHEMISTRY, PHYSICAL-

CiteScore

4.30

自引率

4.30%

发文量

审稿时长

12 weeks

期刊介绍： Johnson Matthey Technology Review publishes articles, reviews and short reports on science enabling cleaner air, good health and efficient use of natural resources. Areas of application and fundamental science will be considered in the fields of:Advanced materials[...]Catalysis[...][...]Characterisation[...]Electrochemistry[...]Emissions control[...]Fine and speciality chemicals[...]Historical[...]Industrial processes[...]Materials and metallurgy[...]Modelling[...]PGM and specialist metallurgy[...]Pharmaceutical and medical science[...]Surface chemistry and coatings[...]Sustainable technologies.