Enhanced Oxidation Resistance of Mo–Si–B–Ti Alloys by Pack Cementation

被引:0
作者
Daniel Schliephake
Camelia Gombola
Alexander Kauffmann
Martin Heilmaier
John H. Perepezko
机构
[1] Karlsruhe Institute of Technology (KIT),Institute for Applied Materials
[2] University of Wisconsin – Madison,Department of Materials Science and Engineering
来源
Oxidation of Metals | 2017年 / 88卷
关键词
High-temperature materials; Mo–Si–B–Ti alloys; Pack cementation; Oxidation-resistant coating;
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中图分类号
学科分类号
摘要
As new high-temperature structural materials, Mo–Si–B alloys satisfy several requirements such as oxidation and creep resistance. Recently, novel Ti-rich Mo–Si–B alloys have shown an increased creep resistance compared to Ti-free alloys. However, due to the formation of a duplex SiO2–TiO2 oxide layer, which allows for fast ingress of oxygen, the oxidation resistance is poor. To improve the oxidation resistance, a borosilicate-based coating was applied to a Mo–12.5Si–8.5B–27.5Ti (in at.%) alloy. After co-deposition of Si and B by pack cementation at 1000 °C in Ar, a conditioning anneal at 1400 °C is used to develop an outer borosilicate layer followed by an inner MoSi2 and Mo5Si3 layer. During both isothermal and cyclic oxidation after an initial mass loss during the first hours of exposure, a steady state is reached for times up to 1000 h at temperatures ranging from 800 to 1200 °C, demonstrating a significantly enhanced oxidation resistance.
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页码:267 / 277
页数:10
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