From Mo–Si–B to Mo–Ti–Si–B Alloys: A Short Review
M Zhao, W Ye, M Zhu, Y Gui, W Guo, S Wu, Y Yan - Materials, 2022 - mdpi.com
Mo–Si–B alloys have attracted considerable research interest during the last several
decades due to their high melting points, excellent high-temperature strength and relatively …
decades due to their high melting points, excellent high-temperature strength and relatively …
Oxidation mechanism of refractory high entropy alloys Ta-Mo-Cr-Ti-Al with varying Ta content
The effect of Ta on the oxidation resistance of the alloys Ta x-(Mo-Cr-Ti-Al) 1− x (x= 0; 5; 10;
15; 20 at%) in air at 1200° C was examined. The oxidation behavior improves continuously …
15; 20 at%) in air at 1200° C was examined. The oxidation behavior improves continuously …
Dry sliding tribological properties and wear mechanisms of Mo–Si–B–xTi alloys at the temperature range of 25–1000° C
H Tan, Q Sun, J Chen, S Zhu, J Cheng, J Yang - Tribology International, 2023 - Elsevier
Abstract The search for Mo-Si-B based alloys exhibit excellent high-temperature wear
resistance is highly demanding for their structural applications. For this target, the Mo-Si-B …
resistance is highly demanding for their structural applications. For this target, the Mo-Si-B …
An oxidation resistant refractory high entropy alloy protected by CrTaO4-based oxide
Although refractory high entropy alloys (RHEAs) have shown potentials to be developed as
structural materials for elevated temperature applications, most of the reported oxidation …
structural materials for elevated temperature applications, most of the reported oxidation …
Formation of rutile (Cr, Ta, Ti) O2 oxides during oxidation of refractory high entropy alloys in Ta-Mo-Cr-Ti-Al system
The chemical identity of rutile oxides formed during oxidation of alloys with different Ti
content within the Ta-Mo-Cr-Ti-Al system at 1200° C for 24 h was determined. Rutile-type …
content within the Ta-Mo-Cr-Ti-Al system at 1200° C for 24 h was determined. Rutile-type …
[HTML][HTML] Advancing refractory high entropy alloy development with AI-predictive models for high temperature oxidation resistance
Refractory high-entropy alloys (RHEAs) and complex concentrated alloys (RCCAs) are vital
for high-temperature applications beyond the capabilities of Ni-based superalloys …
for high-temperature applications beyond the capabilities of Ni-based superalloys …
High temperature oxidation behavior of Ni-based superalloy GH202
J Cao, J Zhang, R Chen, Y Ye, Y Hua - Materials Characterization, 2016 - Elsevier
The isothermal oxidation kinetic and oxidation behavior of Ni-based superalloy GH202 were
investigated at temperatures from 800° C to 1100° C. The microstructure of GH202 was …
investigated at temperatures from 800° C to 1100° C. The microstructure of GH202 was …
Characterisation of the oxidation and creep behaviour of novel Mo-Si-Ti alloys
S Obert, A Kauffmann, M Heilmaier - Acta materialia, 2020 - Elsevier
The oxidation and creep behaviour of novel eutectic-eutectoid Mo-Si-Ti alloys were studied
and compared to previously investigated entirely eutectic Mo-20Si-52.8 Ti (at%) and …
and compared to previously investigated entirely eutectic Mo-20Si-52.8 Ti (at%) and …
Constitution, oxidation and creep of eutectic and eutectoid Mo-Si-Ti alloys
D Schliephake, A Kauffmann, X Cong, C Gombola… - Intermetallics, 2019 - Elsevier
In the present contribution, we describe the successful development of two ternary Mo-Si-Ti
alloys with two-phase eutectic and eutectoid microstructure, respectively. In the case of Mo …
alloys with two-phase eutectic and eutectoid microstructure, respectively. In the case of Mo …
Microstructure and oxidation behaviour of Y-added Mo-Ti-Si-B alloys
Microstructure and oxidation behaviour of multi-phase Mo-Ti-Si-B alloys with 0.2–1.0 at% Y
addition were investigated in this study. In addition to Mo ss, Ti 5 Si 3, and Mo 5 SiB 2, a Y …
addition were investigated in this study. In addition to Mo ss, Ti 5 Si 3, and Mo 5 SiB 2, a Y …