| Phase equilibria and thermodynamic properties in the Fe-Cr system W Xiong, M Selleby, Q Chen, J Odqvist, Y Du Critical Reviews in Solid State and Materials Sciences 35 (2), 125-152, 2010 | 233 | 2010 |
| Quantitative phase field modeling of diffusion-controlled precipitate growth and dissolution in Ti–Al–V Q Chen, N Ma, K Wu, Y Wang Scripta Materialia 50 (4), 471-476, 2004 | 207 | 2004 |
| The Fe-Cu system: A thermodynamic evaluation Q Chen, Z Jin Metallurgical and Materials Transactions A 26, 417-426, 1995 | 200 | 1995 |
| Modeling of thermodynamic properties for Bcc, Fcc, liquid, and amorphous iron Q Chen, B Sundman Journal of phase equilibria 22 (6), 631-644, 2001 | 196 | 2001 |
| An improved thermodynamic modeling of the Fe–Cr system down to zero kelvin coupled with key experiments W Xiong, P Hedström, M Selleby, J Odqvist, M Thuvander, Q Chen Calphad 35 (3), 355-366, 2011 | 193 | 2011 |
| Calculation of debye temperature for crystalline structures—a case study on Ti, Zr, and Hf Q Chen, B Sundman Acta materialia 49 (6), 947-961, 2001 | 183 | 2001 |
| 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 | 168 | 2018 |
| 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 | 138 | 2017 |
| Computation of partial equilibrium solidification with complete interstitial and negligible substitutional solute back diffusion Q Chen, B Sundman Materials transactions 43 (3), 551-559, 2002 | 128 | 2002 |
| Analytical treatment of diffusion during precipitate growth in multicomponent systems Q Chen, J Jeppsson, J Ågren Acta materialia 56 (8), 1890-1896, 2008 | 114 | 2008 |
| Atomic mobilities and diffusivities in the fcc, L12 and B2 phases of the Ni-Al system L Zhang, Y Du, Q Chen, I Steinbach, B Huang International journal of materials research 101 (12), 1461-1475, 2010 | 100 | 2010 |
| Diffusivities of an Al–Fe–Ni melt and their effects on the microstructure during solidification L Zhang, Y Du, I Steinbach, Q Chen, B Huang Acta Materialia 58 (10), 3664-3675, 2010 | 100 | 2010 |
| 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 | 86 | 2018 |
| On sluggish diffusion in Fcc Al–Co–Cr–Fe–Ni high-entropy alloys: an experimental and numerical study Q Li, W Chen, J Zhong, L Zhang, Q Chen, ZK Liu Metals 8 (1), 16, 2017 | 83 | 2017 |
| Modeling precipitation kinetics during heat treatment with calphad-based tools Q Chen, K Wu, G Sterner, P Mason Journal of materials engineering and performance 23, 4193-4196, 2014 | 77 | 2014 |
| An improved magnetic model for thermodynamic modeling W Xiong, Q Chen, PA Korzhavyi, M Selleby Calphad 39, 11-20, 2012 | 73 | 2012 |
| Predicting phase equilibrium, phase transformation, and microstructure evolution in titanium alloys YZ Wang, N Ma, Q Chen, F Zhang, SL Chen, YA Chang Jom 57, 32-39, 2005 | 69 | 2005 |
| Increasing length scale of quantitative phase field modeling of growth-dominant or coarsening-dominant process C Shen, Q Chen, YH Wen, JP Simmons, Y Wang Scripta materialia 50 (7), 1023-1028, 2004 | 68 | 2004 |
| Thermodynamic assessment of the Ti-Al-N system Q Chen, B Sundman Journal of phase equilibria 19 (2), 146-160, 1998 | 64 | 1998 |
| Models for composition dependence I Ansara, B Burton, Q Chen, M Hillert, A Fernandez-Guillermet, SG Fries, ... Calphad 24 (1), 19-40, 2000 | 60 | 2000 |
Bo SundmanMSE, KTH, Sweden在 kth.se 的电子邮件经过验证
