张庆宇 - 苏州大学 - 沙钢钢铁学院

个人简介

2018.12-今苏州大学沙钢钢铁学院讲师 2014.10-2015.10 德国耶拿大学(Friedrich-Schiller-University Jena) Otto-Schott材料研究所联合培养博士 2011.09-2018.09东南大学材料科学与工程学院博士 2007.09-2011.06 燕山大学材料科学与工程学院材料物理本科

研究领域

材料组织性能模拟及预测、纳米功能材料表面特性及润湿性研究、多相流系统及传热现象

近期论文

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1.Q.Y. Zhang, H. Fang, H. Xue, Q.Y. Tang, S.Y. Pan, M. Rettenmayr, M.F. Zhu, Modeling of melting and resolidification of equiaxed microstructures in a temperature gradient, Scripta Materialia, 151 (2018) 28-32. 2.Q.Y. Zhang, S. Lippmann, A. Grasemann, M.F. Zhu, M. Rettenmayr, Determination of temperature dependent thermophysical properties using an inverse method and an infrared line camera, International Journal of Heat and Mass Transfer 96 (2016) 242-248. 3.Q.Y. Zhang, D.K. Sun, Y.F. Zhang, M.F. Zhu, Lattice Boltzmann modeling of droplet condensation on superhydrophobic nanoarrays, Langmuir 30(42) (2014) 12559-12569. 4.Q.Y. Zhang, T.T. Wang, M.F. Zhu, Modeling of hydrogen porosity formation during solidification of dendrites and irregular eutectics in Al-Si alloys, Materialia 4 (2018) 211-220. 5.Q.Y. Zhang, C.S Zhu, M.F. Zhu, Three-dimensional numerical simulation of droplet evaporation using the lattice Boltzmann method based on GPU-CUDA accelerated algorithm, Communications in Computational Physics 23(4) (2018) 1150-1166. 6.Q.Y. Zhang, H. Fang, H. Xue, S.Y. Pan, M. Rettenmayr, M.F. Zhu, Interaction of local solidification and remelting during dendrite coarsening - modeling and comparison with experiments, Scientific Reports 7(1) (2017) 17809. 7.Q.Y. Zhang, H. Xue, Q.Y. Tang, S.Y. Pan, M. Rettenmayr, M.F. Zhu, Microstructural evolution during temperature gradient zone melting: Cellular automaton simulation and experiment, Computational Materials Science 146 (2018) 204-212. 8.Q.Y. Zhang, D.K. Sun, Y.F. Zhang, M.F. Zhu, Numerical modeling of condensate droplet on superhydrophobic nanoarrays using the lattice Boltzmann method, Chinese Physics B 25(6) (2016) 066401. 9.Q.Y. Zhang, D.K. Sun, M.F. Zhu, A multicomponent multiphase lattice Boltzmann model with large liquid-gas density ratios for simulations of wetting phenomena, Chinese Physics B 26(8) (2017) 084701.