2020
DOI: 10.1016/j.jmrt.2020.06.002
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On the chemical and microstructural requirements for the pesting-resistance of Mo–Si–Ti alloys

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Cited by 35 publications
(39 citation statements)
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“…The general oxidation behaviour of the eutectic Mo-20Si-52.8Ti alloy has been studied in detail in Refs. [9,11] for the as-cast and homogenised heat-treated condition with no significant differences in oxide scale formation and oxidation behaviour observed. Thus, we now focus on the detailed investigation and understanding of the formed oxide scales of the as-cast (ac) condition.…”
Section: Structural Characterisation Of the Oxide Scales Formed At 800 And 1200 °Cmentioning
confidence: 91%
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“…The general oxidation behaviour of the eutectic Mo-20Si-52.8Ti alloy has been studied in detail in Refs. [9,11] for the as-cast and homogenised heat-treated condition with no significant differences in oxide scale formation and oxidation behaviour observed. Thus, we now focus on the detailed investigation and understanding of the formed oxide scales of the as-cast (ac) condition.…”
Section: Structural Characterisation Of the Oxide Scales Formed At 800 And 1200 °Cmentioning
confidence: 91%
“…To summarise, our previous studies focused on the chemical and microstructural conditions for achieving pesting-resistance in eutectic-eutectoid Mo-Si-Ti alloys. It turned out that a threshold in nominal Ti content of minimum 43 at% is mandatory in order to obtain adequate oxidation resistance in the pesting regime [10,11]. Moreover, it was found that the fine length scale of the eutectic microstructure is not required in order to achieve pesting-resistance since a considerably, artificially coarsened eutectic alloy exhibited a similarly good oxidation behaviour [11].…”
Section: Introductionmentioning
confidence: 99%
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“…As previously reported in Refs. [9,11], the lamellar eutectic colonies consisted of Mo-rich solid solution Mo ss (bright contrast) and (Ti,Mo) 5 Si 3 (dark contrast). The eutectic colonies were surrounded by a degenerated eutectic microstructure, and some primary solidification of (Ti,Mo) 5 Si 3 occurred, both of which were characteristic of the present alloy.…”
Section: Ua Powdermentioning
confidence: 99%