相图、相变及合金设计课题组Publications
Journal-2023
Welcome to cite our work
1 ZHANG T, ZHONG J, ZHANG L, Pareto optimal driven automation framework for quantitative microstructure simulation towards spinodal decomposition, MRS Communications, 13(5):877–884
2 ZHANG C, WU X, CHEN C, et al., Origin of environmentally structural susceptibility of nickel-based layered oxide cathodes, Acta Materialia, 261:119392
3 LI Q, ZHONG J, WU X, et al., Efficient acquisition of interdiffusion coefficients matrices and atomic mobilities of fcc Co–Mn–Cr alloys by combining diffusion couple experiments and HitDIC software, Calphad, 83:102635
4 ZHANG M, GAO J, YI W, et al., Thermodynamic descriptions of ternary Al–Si–Yb system and their application to understand solidification behaviors of Yb-modified Al–Si alloys, Calphad, 83:102625
5 J Gao, J Zhong, G Liu, S Zhang, J Zhang, Z Liu, B Song, L Zhang, Accelerated discovery of high-performance Al-Si-Mg-Sc casting alloys by integrating active learning with high-throughput CALPHAD calculations, Science And Technology Of Advanced Materials, 24 (1), 2196242
6 J Zhang, X Wang, J Gao, L Zhang, B Song, L Zhang, Y Yao, J Lu, Y Shi, Additive manufacturing of Ti–6Al–4V/Al–Cu–Mg multi-material structures with a Cu interlayer, International Journal Of Mechanical Sciences, 256, 108477
7 SL Yang, J Zhong, K Wang, X Kang, JB Gao, J Wang, Q Li, LJ Zhang, Complex hexagonal close-packed dendritic growth during alloy solidification by graphics processing unit-accelerated three-dimensional phase-field simulations: demo for Mg–Gd alloy, Rare Metals, , 1-17
8 Z Wang, Z Dong, L Zhang, Q Luo, B Liu, Z Wu, B Jiang, Q Li, Effective first-principle description of thermodynamics for BCC Nb-V system by involving the contributions of chemical order, lattice distortion and vibration, Journal Of Alloys And Compounds, , 171692
9 W Peng, J Gao, T Lu, B Sun, X Zhang, L Zhang, S Tu, Insights into abnormal grain growth in copper thin films for reduced electrical resistivity: a quantitative multi-order-parameter phase-field study under finite element framework, Acta Materialia, , 119236
10 H Yang, S Yang, L Zhang, L Chen, Deep understanding of lithium deposition mechanisms in lithium metal anode porous hosts by combining phase-field simulations with experimental verification, Acta Materialia, , 119231
11 J Zhang, J Gao, S Yang, B Song, L Zhang, J Lu, Y Shi, Breaking the strength–ductility trade-off in additively manufactured aluminum alloys through grain structure control by duplex nucleation, Journal Of Materials Science & Technology, 152, 201-211
12 P Deng, B Yin, Q Li, J Zhong, Y Liu, L Zhang, C Deng, Tuning the secondary reaction zone between PtAl coating and nickel based single crystal superalloy during high-temperature oxidation through regulating aluminizing time, Surfaces And Interfaces, 38, 102807
13 H Xu, Y Zhao, K Cheng, J Zhong, N Ding, L Liu, N Li, N Xu, W Guo, L Tian, ..., High-throughput determination of interdiffusivity matrices and atomic mobilities in Cu-rich fcc Cu-Sn-Zn alloys by using the experimental composition profiles and HitDIC, Journal Of Alloys And Compounds, 944, 169205
14 J Cai, W Zhang, Y Tang, J Zhong, L Zhang, X Xia, J Ding, High-throughput determination of the interdiffusion coefficients in fcc Cu–Ni–Al–Zn alloys, Vacuum, 211, 111940
15 K Cheng, Y Zheng, J Sun, Y Zhao, J Wang, H Yu, D Zhao, H Li, J Zhou, ..., Investigation on the temperature-dependent diffusion growth of intermetallic compounds in the Mg-Al-Zn system: Experiment and modeling, Journal Of Magnesium And Alloys,
16 L Rorato, Y Shang, S Yang, M Hubert, K Couturier, L Zhang, J Vulliet, ..., Understanding the Ni Migration in Solid Oxide Cell: A Coupled Experimental and Modeling Approach, Journal Of The Electrochemical Society, 170 (3), 034504
17 L Yang, Y Yuan, Q Li, J Wu, T Chen, J Wang, X Zuo, A Tang, L Zhang, ..., Interdiffusion and atomic mobility of the Mg–Sn–Zn system, Calphad, 80, 102524
18 Z Wang, S Chen, S Yang, Q Luo, Y Jin, W Xie, L Zhang, Q Li, Light-weight refractory high-entropy alloys: a comprehensive review, Journal Of Materials Science & Technology,
19 F Li, Z Li, C Tang, L Zhang, Q Tan, C Chen, MX Zhang, K Zhou, Design high-strength Al–Mg–Si alloy fabricated by laser powder bed fusion: Cracking suppression and strengthening mechanism, Materials Science And Engineering: A, 864, 144591
20 刘佳, 高建宝, 李志诚, 马飒, 钟静, 张利军, 金属增材制造的相场模拟现状及展望, 铸造技术, 44 (02), 87-100
21 M Wen, Y Tang, E Zhang, L Zhang, X Xia, J Ding, Phase equilibria and solidified microstructure in Cu–Cr–La ternary system via experimental investigation and thermodynamic calculation, Journal Of Materials Science, 58 (7), 3323-3333
22 S Yang, J Gao, M Trini, S De Angelis, PS Jørgensen, JR Bowen, L Zhang, ..., Ni coarsening in Ni-yttria stabilized zirconia electrodes: three-dimensional quantitative phase-field simulations supported by ex-situ ptychographic nano-tomography, Acta Materialia, 246, 118708
23 S Yang, J Zhong, J Wang, J Gao, Q Li, L Zhang, A novel computational model for isotropic interfacial energies in multicomponent alloys and its coupling with phase-field model with finite interface dissipation, Journal Of Materials Science & Technology, 133, 111-122
24 T Gao, J Gao, J Zhang, B Song, L Zhang, Development of an accurate “composition-process-properties” dataset for SLMed Al-Si-(Mg) alloys and its application in alloy design, Journal Of Materials Informatics, 3, 6
25 高建宝, 李志诚, 刘佳, 张金良, 宋波, 张利军, 计算辅助高性能增材制造铝合金开发的研究现状与展望, 金属学报, 59 (1), 87-105
26 S Zhang, W Yi, J Zhong, J Gao, Z Lu, L Zhang, Computer Alloy Design of Ti Modified Al-Si-Mg-Sr Casting Alloys for Achieving Simultaneous Enhancement in Strength and Ductility, Materials, 16 (1), 306
27 Y Jin, S Chen, X Wu, J Guo, L Zhang, Comparative Study of Prior Particle Boundaries and Their Influence on Grain Growth during Solution Treatment in a Novel Nickel-Based Powder Metallurgy Superalloy with/without …, Metals, 13 (1), 17
28 Y Wen, J Gao, RL Narayan, P Wang, L Zhang, B Zhang, U Ramamurty, ..., Microstructure-property correlations in as-built and heat-treated compositionally graded stainless steel 316L-Inconel 718 alloy fabricated by laser powder bed fusion, Materials Science And Engineering: A, , 144515