期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 900, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2021.163373
关键词
Thin film; Multi-principal element alloy; Refractory metals; Oxidation; Nanoindentation
资金
- National Science Foundation [NNCI-2025075]
The study on low temperature oxidation behavior of MoNbTaW alloy in air revealed the formation of an amorphous oxidized layer, which was softer and more compliant than the underlying metal. MoNbTaW oxidized more quickly and exhibited different oxidation pathways compared to pure W samples under the same annealing conditions.
MoNbTaW is a promising refractory multi-principal element alloy (RMPEA) that has exhibited good high temperature phase stability in vacuum and exceptional high temperature mechanical properties-even surpassing those seen in Ni superalloys. To date, there have been no detailed studies regarding the environmental resistance of this alloy, which is a primary concern due to the constituent elements being readily oxidizable at elevated temperatures. Therefore, in the current work, in-air anneals of sputtered MoNbTaW films targeting the 200 degrees C - 400 degrees C range were conducted to study the low temperature oxidation behavior. An amorphous oxidized layer, which was comprised of three compositionally distinct regions, was observed to form at all in-air annealing temperatures. Furthermore, via nanoindentation, the oxidized layer was determined to be significantly softer and more compliant than the underlying metal. Comparison to pure W samples under the same annealing conditions was also performed. From this, it was determined that MoNbTaW oxidized more quickly and exhibited different oxidation pathways than pure W in the studied temperature range. Through this work, the initial stages of oxidation and their impact on the mechanical properties in this alloy system can begin to be understood. (c) 2021 Elsevier B.V. All rights reserved.
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