Abstract
Loss of precious metals from a Pt-10 wt% Rh alloy was studied at 1300° C in refractory oxides and fused quartz environments. After 60 and 150 h annealings, samples exposed to gaseous environments showed significant weight loss. The surface was attacked and characterized by micron-sized pits, as well as river-like striations. The pits were found to be enriched with silicon and/or aluminium depending upon the heating environment. Laser Raman microprobe identified that the major compound formed in the pits is α-cristobalite.
Direct solid state contact of Pt-Rh with Al2O3 and SiO2 showed interactions between materials. The interaction was more extensive between Pt-Rh with SiO2 than with Al2O3. On the other hand, no evidence of interaction except pitting and striation was observed on Pt-Rh when exposed to a vapour environment.
The presence of pits and striation patterns indicated that refractory oxides attacked Pt-Rh under atmospheric conditions, and gave rise to the weight loss. Calculation of weight loss by an oxidation mechanism shows one to two orders of magnitude lower value than the actual weight loss. A new loss mechanism is proposed and discussed in this article.
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Chou, T.C., Mishra, A. & Anderson, D. Loss of precious metal from Pt-Rh alloy under refractory oxide environments. J Mater Sci 25, 2562–2568 (1990). https://doi.org/10.1007/BF00638059
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DOI: https://doi.org/10.1007/BF00638059