A Conflict of Fineness and Stability: Platinum- and Palladium-Based Bulk Metallic Glasses for Jewellery: Part I

IF 1.7 4区 化学 Q4 CHEMISTRY, PHYSICAL Johnson Matthey Technology Review Pub Date : 2021-10-01 DOI:10.1595/205651321x16045078967011
O. S. Houghton, A. L. Greer
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引用次数: 1

Abstract

For the metals used in jewellery, high hardness and the associated scratch resistance are much sought after. Conventional crystalline alloys for jewellery are alloyed and extensively processed (thermally and mechanically) to improve hardness, but it is difficult to reach values beyond 300 HV. The advent of bulk metallic glasses (BMGs), based on precious metals and with hardness exceeding 300 HV in the as-cast state, is therefore of great interest for both jewellery and watchmaking. The non-crystalline structure of these materials not only gives high hardness, but also the opportunity to shape metals like plastics, via thermoplastic forming (TPF). For more traditional jewellery manufacture, BMGs also exhibit high-definition and near-net-shape casting. Gold-based alloys have long dominated the consideration of BMGs for jewellery as they can comply with 18 karat hallmarks. Although BMGs based on platinum or palladium possess excellent thermoplastic formability and are without known tarnishing problems, achieving useful glass-forming ability (GFA) within the more restrictive hallmarking standards typically used for jewellery (≥95 wt% platinum or palladium) is at best challenging. In this two-part review, platinum- and palladium-based BMGs are discussed, focusing on their potential application in jewellery and on the further research that is necessary.
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细度和稳定性的冲突:珠宝用铂和钯基大块金属玻璃:第1部分
对于珠宝中使用的金属来说,高硬度和相关的耐刮擦性是非常受欢迎的。用于珠宝的常规晶体合金被合金化并进行广泛加工(热加工和机械加工)以提高硬度,但很难达到超过300HV的值。因此,以贵金属为基础,铸态硬度超过300HV的大块金属玻璃(BMG)的出现引起了珠宝和制表业的极大兴趣。这些材料的非晶体结构不仅具有高硬度,而且有机会通过热塑性成形(TPF)使金属成型,如塑料。对于更传统的珠宝制造,BMG还展示了高清和近净形状的铸造。长期以来,金基合金一直是珠宝BMG的主要考虑因素,因为它们可以符合18克拉的标志。尽管基于铂或钯的BMG具有优异的热塑性成形性,并且没有已知的变色问题,但在通常用于珠宝的更严格的标志标准(≥95wt%的铂或钯)内实现有用的玻璃形成能力(GFA)充其量是一项挑战。在这篇由两部分组成的综述中,讨论了铂基和钯基BMG,重点是它们在珠宝中的潜在应用以及必要的进一步研究。
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来源期刊
Johnson Matthey Technology Review
Johnson Matthey Technology Review CHEMISTRY, PHYSICAL-
CiteScore
4.30
自引率
4.30%
发文量
48
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.
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