Page 35 - Read Online
P. 35
Ying et al. Microstructures 2023;3:2023018 https://dx.doi.org/10.20517/microstructures.2022.47 Page 15 of 15
56. Senkov O, Wilks G, Scott J, Miracle D. Mechanical properties of Nb Mo Ta W and V Nb Mo Ta W refractory high entropy
25
20
20
25
25
25
20
20
20
alloys. Intermetallics 2011;19:698-706. DOI
57. Wang Z, Baker I, Guo W, Poplawsky JD. The effect of carbon on the microstructures, mechanical properties, and deformation
mechanisms of thermo-mechanically treated Fe Ni Mn Al Cr high entropy alloys. Acta Mater 2017;126:346-60. DOI
40.4 11.3 34.8 7.5 6
58. Takeuchi A, Inoue A. Classification of bulk metallic glasses by atomic size difference. Mater Trans 2005;46:2817-29. DOI
59. Harjo S, Tomota Y, Lukáš P, et al. In situ neutron diffraction study of α-γ Fe-Cr-Ni alloys under tensile deformation. Acta Mater
2001;49:2471-9. DOI
60. Lee S, Woo W, De Cooman BC. Analysis of the plasticity-enhancing mechanisms in 12 pctMn Austeno-ferritic steel by in situ neutron
diffraction. Metall Mat Trans A 2014;45:5823-8. DOI
61. Tomota Y, Tokuda H, Adachi Y, et al. Tensile behavior of TRIP-aided multi-phase steels studied by in situ neutron diffraction. Acta
Mater 2004;52:5737-45. DOI
62. Naeem M, He H, Harjo S, et al. Temperature-dependent hardening contributions in CrFeCoNi high-entropy alloy. Acta Mater
2021;221:117371. DOI
63. Das A, Tarafder S. Geometry of dimples and its correlation with mechanical properties in austenitic stainless steel. Scr Mater
2008;59:1014-7. DOI
64. Parrington RJ. Fractography of metals and plastics. Pract Fail Anal 2002;2:16-9. DOI
