Precipitation behavior and its effects on tensile properties of FeCoNiCr high-entropy alloys JY He, H Wang, Y Wu, XJ Liu, HH Mao, TG Nieh, ZP Lu Intermetallics 79, 41-52, 2016 | 296 | 2016 |
Database development and Calphad calculations for high entropy alloys: Challenges, strategies, and tips HL Chen, H Mao, Q Chen Materials Chemistry and Physics 210, 279-290, 2018 | 185 | 2018 |
Thermodynamic Assessment of the CaO–Al2O3–SiO2 System H Mao, M Hillert, M Selleby, B Sundman Journal of the American Ceramic Society 89 (1), 298-308, 2006 | 162 | 2006 |
TCHEA1: A thermodynamic database not limited for “high entropy” alloys H Mao, HL Chen, Q Chen Journal of Phase Equilibria and Diffusion 38, 353-368, 2017 | 154 | 2017 |
High entropy alloys: Substituting for cobalt in cutting edge technology E Holmström, R Lizarraga, D Linder, A Salmasi, W Wang, B Kaplan, ... Applied Materials Today 12, 322-329, 2018 | 93 | 2018 |
Efficient exploration of the high entropy alloy composition-phase space A Abu-Odeh, E Galvan, T Kirk, H Mao, Q Chen, P Mason, R Malak, ... Acta Materialia 152, 41-57, 2018 | 92 | 2018 |
Thermodynamic reassessment of the Y 2O3–Al2O3–SiO2 system and its subsystems H Mao, M Selleby, O Fabrichnaya Calphad 32 (2), 399-412, 2008 | 90 | 2008 |
Phase Equilibria and Thermodynamics in the Al2O3–SiO2 System—Modeling of Mullite and Liquid H Mao, M Selleby, B Sundman Journal of the American Ceramic Society 88 (9), 2544-2551, 2005 | 90 | 2005 |
Effects of Al addition on the microstructures and properties of MoNbTaTiV refractory high entropy alloy S Ge, H Fu, L Zhang, H Mao, H Li, A Wang, W Li, H Zhang Materials Science and Engineering: A 784, 139275, 2020 | 80 | 2020 |
A re-evaluation of the liquid phases in the CaO–Al2O3 and MgO–Al2O3 systems H Mao, M Selleby, B Sundman Calphad 28 (3), 307-312, 2004 | 77 | 2004 |
Precipitate characteristics and their effects on the high-temperature creep resistance of alumina-forming austenitic stainless steels DQ Zhou, WX Zhao, HH Mao, YX Hu, XQ Xu, XY Sun, ZP Lu Materials Science and Engineering: A 622, 91-100, 2015 | 72 | 2015 |
Thermodynamic assessment of the MgO–Al2O3–SiO2 system H Mao, O Fabrichnaya, M Selleby, B Sundman Journal of materials research 20 (4), 975-986, 2005 | 66 | 2005 |
On the third‐generation Calphad databases: An updated description of Mn S Bigdeli, H Mao, M Selleby physica status solidi (b) 252 (10), 2199-2208, 2015 | 64 | 2015 |
The effect of Al on the 475 C embrittlement of Fe–Cr alloys W Li, S Lu, QM Hu, H Mao, B Johansson, L Vitos Computational materials science 74, 101-106, 2013 | 60 | 2013 |
Preparing bulk ultrafine-microstructure high-entropy alloys via direct solidification Y Lu, X Gao, Y Dong, T Wang, HL Chen, H Maob, Y Zhao, H Jiang, Z Cao, ... Nanoscale 10 (4), 1912-1919, 2018 | 57 | 2018 |
Plastic flow behaviour in an alumina-forming austenitic stainless steel at elevated temperatures DQ Zhou, XQ Xu, HH Mao, YF Yan, TG Nieh, ZP Lu Materials Science and Engineering: A 594, 246-252, 2014 | 52 | 2014 |
Volumetric properties and phase relations of silica—thermodynamic assessment H Mao, B Sundman, Z Wang, SK Saxena Journal of Alloys and Compounds 327 (1-2), 253-262, 2001 | 52 | 2001 |
Experimental and theoretical investigations on the phase stability and mechanical properties of Cr7Mn25Co9Ni23Cu36 high-entropy alloy G Qin, R Chen, H Mao, Y Yan, X Li, S Schönecker, L Vitos, X Li Acta Materialia 208, 116763, 2021 | 51 | 2021 |
Predicting solid solubility in CoCrFeNiMx (M= 4d transition metal) high-entropy alloys S Sheikh, H Mao, S Guo Journal of Applied Physics 121 (19), 2017 | 49 | 2017 |
Thermodynamic evaluation of pure Co for the third generation of thermodynamic databases Z Li, S Bigdeli, H Mao, Q Chen, M Selleby physica status solidi (b) 254 (2), 1600231, 2017 | 45 | 2017 |