主持国家自然科学基金面上项目5项、教育部基金2项、中美和中韩国际合作项目5项等。从2001年以来以第一作者或通讯作者在国内外著名杂志以及国际会议上发表学术论文90余篇。所发表的论文被SCI、EI和ISTP收录60余篇, SCI引用630余篇次。课程教学材料数值模拟基础(本科生)| 材料加工过程数值模拟(研究生）教育经历•     1992.9-1996.1, 东南大学, 机械工程系, 博士•     1989.9-1992.3, 东南大学, 材料科学与工程系, 硕士•     1978.3-1982.1, 浙江大学, 材料科学与工程系, 学士研究工作经历•     2002.8-今, 东南大学, 机械系/材料学院, 教授•     1999.8-2002.8, 韩国延世大学, 冶金系, 博士后/研究教授•     1996.1-1999.7, 东南大学, 机械工程系, 讲师/副教授•     1982.2-1989.8, 江苏省铸造热处理研究所, 热处理研究室, 助工/工程师研究内容及代表性成果1. 凝固显微组织演化的数值模拟                三维等轴枝晶生长                         自然对流作用下等轴晶生长                      偏晶合金的液-液分离              规则共晶的摆动生长                         Al-Si合金枝晶/非规则共晶生长                 球墨铸铁离异共晶生长         Al-Si合金凝固气孔形成演化                                    定向凝固过程中枝晶生长和气泡形成的演化2. 材料成分设计和组织性能的模拟                   CALPHAD相图计算                                    碳素双相钢铁素体-奥氏体转变3.材料加工过程的多尺度数值模拟           DSIT热轧过程的Deform有限元模拟                            DSIT热轧过程中奥氏体-铁素体转变4.纳米功能材料表面超疏水性能的模拟预测                                液滴在不同纳米结构表面的三种形核和生长模式  国际国内合作与美国俄亥俄州立大学Doru M. Stefanescu教授、德国耶拿大学Markus Rettenmayr教授课题组、德国马普学会钢铁研究所DierkRaabe教授、美国西北大学David Seidman教授课题组、中南大学杜勇教授课题组、韩国延世大学Chunpyo Hong教授、美国普渡大学Qingyou Han教授、美国AO Smith公司、美国CompuTherm公司等国内外著名学者、研究机构和公司建立有密切的学术合作关系。主要论文目录•Zhu Mingfang*, Zhang Lei, Zhao Honglei, StefanescuDoru M., Modeling of microstructural evolution during divorced eutectic solidification of spheroidal graphite, Acta Mater., 2015, 84: 413-425. •Pan Shiyan, Zhang Qingyu, Zhu Mingfang*, Rettenmayr Markus, Liquid droplet migration under static and dynamic conditions: Analytical model, phase-field simulation and experiment, ActaMater., 2015, 86: 229-239.•Pan Shiyan, Zhu Mingfang*, A three-dimensional sharp interface model for the quantitative simulation of solutal dendritic growth, ActaMater., 2010, 58(1): 340-352.•Sun Dongke, Zhu Mingfang*, Pan Shiyan, RaabeDierk, Lattice Boltzmann modeling of dendritic growth in a forced melt convection, ActaMater., 2009, 57(6): 1755-1767.•Zhu Mingfang*, StefanescuDoru M., Virtual front tracking model for the quantitative modeling of dendritic growth in solidification of alloys, ActaMater., 2007, 55(5): 1741-1755.•Zhang Xianfei*, Zhao Jiuzhou*, Jiang Hongxiang, Zhu Mingfang, A three-dimensional cellular automaton model for dendritic growth in multi-component alloys, ActaMater., 2012, 60(5): 2249-2257.•Zhang Qingyu, Sun Dongke, Zhang Youfa*, Zhu Mingfang*, Lattice Boltzmann modeling of droplet condensation on superhydrophobicnanoarrays, Langmuir, 2014, 30(42): 12559-12569.•Zhu Mingfang*, Sun Dongke, Pan Shiyan, Zhang Qingyu, RaabeDierk, Modelling of dendritic growth during alloy solidification under natural convection, Modell. Simul. Mater. Sci. Eng., 2014, 22(3): 034006.•An Dong, Pan Shiyan, Huang Li, Dai Ting, Krakauer Bruce, Zhu Mingfang*, Modeling of ferrite-austenite phase transformation using a cellular automaton model, ISIJ Int., 2014, 54(2): 422-429.•Zhu Mingfang*, Li Zhengyang, An Dong, Zhang Qingyu, Dai Ting, Cellular automaton modeling of microporosity formation during solidification of aluminum alloys, ISIJ Int., 2014, 54(2): 384-391.•Zhang Qingyu, Lippmann Stephanie, Grasemann Aaron, Zhu Mingfang, Rettenmayr Markus*, Determination of temperature dependent thermophysical properties using an inverse method and an infrared line camera, Int. J. Heat Mass Transfer, 2016, 96: 242-248.•陈海楠, 孙东科, 戴挺, 朱鸣芳*, 凝固前沿和气泡相互作用的大密度比格子玻尔兹曼方法模拟, 物理学报, 2013, 62(12): 120502.•周丰茂, 孙东科, 朱鸣芳*, 偏晶合金液-液相分离的格子玻尔兹曼方法模拟, 物理学报, 2010, 59(5): 468-475.•潘诗琰, 朱鸣芳*, 双边扩散枝晶生长的定量相场模型, 物理学报, 2012, 61(22): 228102.•吴伟, 孙东科, 戴挺, 朱鸣芳*, 枝晶生长和气泡形成的数值模拟, 物理学报, 2012, 61(15): 150501.•Zhu Mingfang*, Pan Shiyan, Sun Dongke, Zhao Honglei, Numerical simulation of microstructure evolution during alloy solidification by using cellular automaton method, ISIJ Int., 2010, 50(12): 1851-1858.•Zhu Mingfang*, Hong Chunpyo, StefanescuDoru M., Chang Y. Austin, Computational modeling of microstructure evolution in solidification of aluminum alloys, Metall. Mater. Trans. B, 2007, 38(4): 517-524.•Zhu Mingfang*, Cao Weisheng, Chen Shuanglin, Hong Chunpyo, Chang Y. Austin, Modeling of microstructure and microsegregation in solidification of multi-component alloys, J. Phase Equilib. Diffus., 2007, 28(1): 130-138.•Zhu Mingfang*, Hong Chunpyo, Modeling of irregular eutectic microstructures in solidification of Al-Si alloys, Metall. Mater. Trans. A, 2004, 35A(5): 1555-1563.•Zhu Mingfang*, Lee Sungyoon, Hong Chunpyo, Modified cellular automaton model for the prediction of dendritic growth with melt convection, Phys. Rev. E, 2004, 69(6): 061610.•Zhu Mingfang*, Hong Chunpyo, Modeling of microstructure evolution in regular eutectic growth, Phys. Rev. B, 2002, 66(15): 155428•Zhu Mingfang*, Hong Chunpyo, A modified cellular automaton model for the simulation of dendritic growth in solidification of alloys, ISIJInt., 2001, 41(5): 436-445.•Zhu Mingfang*, Kim Jiemin, Hong Chunpyo, Modeling of globular and dendritic structure evolution in solidification of an Al-7mass%Si alloy, ISIJInt., 2001, 41(9): 992-998.