2021
DOI: 10.3390/met11040564
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Temperature Resistance of Mo3Si: Phase Stability, Microhardness, and Creep Properties

Abstract: Mo-Si-B alloys are one of the most promising candidates to substitute Ni based superalloys in gas turbines. The optimization of their composition can be achieved more effectively using multi-scale modeling of materials behavior and structural analysis of components for understanding, predicting, and screening properties of new alloys. Nevertheless, this approach is dependent on data on the properties of the single phases in these alloys. The focus of this investigation is Mo3Si, one of the phases in typical Mo… Show more

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Cited by 10 publications
(4 citation statements)
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“…The percentage of the strength enhancement of the Ti15Mo-2Si alloy reaches a value of 16.64% over the alloy without Si content (the Ti-15Mo alloy). In Ti-alloys, strength can be influenced by factors such as alloy composition, processing methods, heat treatments, and the presence of various strengthening mechanisms like solid solution strengthening, precipitation hardening, and grain refinement [40]. Si can play a significant role in the grain refining of β-Ti alloys, which can lead to improved mechanical properties according to the Hall-Petch equation [41,42].…”
Section: Hardness and Compressive Strengthmentioning
confidence: 99%
“…The percentage of the strength enhancement of the Ti15Mo-2Si alloy reaches a value of 16.64% over the alloy without Si content (the Ti-15Mo alloy). In Ti-alloys, strength can be influenced by factors such as alloy composition, processing methods, heat treatments, and the presence of various strengthening mechanisms like solid solution strengthening, precipitation hardening, and grain refinement [40]. Si can play a significant role in the grain refining of β-Ti alloys, which can lead to improved mechanical properties according to the Hall-Petch equation [41,42].…”
Section: Hardness and Compressive Strengthmentioning
confidence: 99%
“…The effects of microstructure or microstructural stability, either directly correlated to the manufacturing process, or induced by heat treatment or by prolonged high temperature exposure simulating service, have also been considered in other contributions: for the two Al-SiMg alloys differently produced and heat treated by Gariboldi et al [5] and Paoletti et al [6], for the friction stir welded Mg alloy WE54 studied by Álvarez-Leal et al [7], for the dynamic recrystallization in martensitic steels changes reviewed by Derazkola et al [8], the Ni-based alloys investigated by Llizzi et al [9] and Engels [10], and finally the Mo-Si alloys investigated by Krauss et al [11].…”
Section: Mmicrostructural Changes Induced By High Temperature Exposurementioning
confidence: 99%
“…The paper by Krauss et al [11] underlined the effect of microstructure and the need for a clear understanding of it in a different way. Clear differences have been demonstrated between the creep properties of Mo, Mo solid solution, Mo5SiB2 and some Mo-Si-B alloys, these latter candidate materials for future gas turbine engines operating at temperatures exceeding those possible for Ni-based alloys.…”
Section: Creep and Creep Modelingmentioning
confidence: 99%
“…Transition metal silicides have been promising for a wide range of applications including microelectronic transistors, high-temperature structural components, thin film coatings, thermoelectrics, spintronic devices, and catalysts [1][2][3][4][5][6]. Of many transition metal silicides, iron silicides exhibit magnetic, semiconducting, metallic, and insulating characteristics, depending on different crystalline structures [7,8].…”
Section: Introductionmentioning
confidence: 99%