Platinum Alloys: A Selective Review of the Available Literature

Platinum Metals Review Pub Date : 2013-07-01 DOI:10.1595/147106713X668596

Grigory Rakhtsaum

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引用次数: 35

Abstract

Introduction More than half of the platinum that is produced around the world each year currently fi nds use in automotive and other areas of industry as a catalyst and as a major constituent in various engineering alloys (Figure 1) (1). Platinum also has a place in jewellery manufacturing. The objective of this article is to review the existing phase diagrams and known properties of some platinum alloys that are used in industrial and jewellery applications, and also to present published data on some less used platinum alloys which nevertheless have interesting properties. The alloys covered are of platinum with palladium, iridium, rhodium, ruthenium, gold and nickel. The data on mechanical properties of the platinum alloys presented in Tables I–VII are obtained from the monograph by R. F. Vines (2) published in 1941, still the most comprehensive source, from The PGM Database (3) hosted by Johnson Matthey, and from the internal database and website of Sigmund Cohn Corporation (4), a US pgm alloy fabricator. To keep the uniformity of units of measure all tensile strength (TS) data is presented in psi, and all the hardness data is presented in Vickers hardness (HV) (some of these values are converted from MPa and Brinell respectively). All alloy compositions are given in weight per cent (wt%) unless otherwise specified.

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铂合金:对现有文献的选择性回顾

目前，全球每年生产的铂金中，有一半以上用于汽车和其他工业领域，作为催化剂和各种工程合金的主要成分(图1)。铂金在珠宝制造业中也占有一席之地。本文的目的是回顾一些用于工业和珠宝应用的铂合金的现有相图和已知性能，并介绍一些较少使用但具有有趣性能的铂合金的已发表数据。所涵盖的合金是铂与钯、铱、铑、钌、金和镍。表1 - 7中的铂合金力学性能数据来自R. F. Vines(2)于1941年出版的专著，这是目前最全面的资料来源，数据来自Johnson Matthey托管的PGM数据库(3)，以及美国PGM合金制造商Sigmund Cohn Corporation(4)的内部数据库和网站。为保持测量单位的均匀性，所有抗拉强度(TS)数据均以psi表示，所有硬度数据均以维氏硬度(HV)表示(其中部分数值分别由MPa和布氏硬度转换而来)。除非另有说明，所有合金成分均以重量百分比(wt%)表示。

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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Platinum Metals Review CHEMISTRY, PHYSICAL-

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>12 weeks