李明健
力学和多物理场耦合研究
下载 引用
SCI 论文
  1. Feiyu Xiong, Yanping Lian*, Ming-Jian Li, Jiaqi Ouyang, Yufan Liu. An extended cellular automaton finite volume method for grain nucleation–growth–coarsening during the wire-based additive manufacturing process. Additive Manufacturing 2023, 76: 103782. DOI: 10.1016/j.addma.2023.103782
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  2. Yanping Lian*, Jiawei Chen, Ming-Jian Li*, Ruxin Gao. A multi-physics material point method for thermo-fluid-solid coupling problems in metal additive manufacturing processes. Computer Methods in Applied Mechanics and Engineering 2023, 416: 116297. DOI: 10.1016/j.cma.2023.116297
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  3. Chunpeng Wang, Yanping Lian*, Ruxin Gao*, Feiyu Xiong, Ming-Jian Li. A multi-point synergistic gradient evolution method for topology optimization leveraging neural network with applications in converged and diverse designs. Computational Mechanics 2023. DOI: 10.1007/s00466-023-02358-z
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  4. Jiaqi Ouyang, Ming-Jian Li*, Yanping Lian*, Siyi Peng, Changmeng Liu. A fast prediction model for liquid metal transfer modes during the wire arc additive manufacturing process. Materials 2023, 16(7): 2911. DOI: 10.3390/ma16072911
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  5. Ming-Jian Li, Jiawei Chen, Yanping Lian*, Feiyu Xiong, Daining Fang. An efficient and high-fidelity local multi-mesh finite volume method for heat transfer and fluid flow problems in metal additive manufacturing. Computer Methods in Applied Mechanics and Engineering 2023, 404: 115828. DOI: 10.1016/j.cma.2022.115828
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  6. Feng Xu, Feiyu Xiong, Ming-Jian Li, Yanping Lian*. Three-dimensional numerical simulation of grain growth during selective laser melting of 316L stainless steel. Materials 2022, 15: 6800. DOI: 10.3390/ma15196800 (Editor's Choice)
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  7. Ming-Jian Li, Yanping Lian*, Xiong Zhang*. An immersed finite element material point (IFEMP) method for free surface fluid–structure interaction problems. Computer Methods in Applied Mechanics and Engineering 2022, 393: 114809. DOI: 10.1016/j.cma.2022.114809
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  8. Ming-Jian Li, Meng Li*, Yu-Fei Liu, Xin-Yu Geng, Yuan-Yuan Li. A review on the development of spaceborne membrane antennas. Space: Science & Technology 2022: 9803603. DOI: 10.34133/2022/9803603
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  9. Ming-Jian Li, Meng Li*, Yu-Fei Liu, Cheng-Bo Cui. Theoretical and numerical studies on multi‐physical issues of space parabolic membrane antennas. IET Microwaves, Antennas & Propagation 2021, 15(12): 1625–1635. DOI: 10.1049/mia2.12172
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  10. Ming-Jian Li*. Interaction between free surface flow and moving bodies with a dynamic mesh and interface geometric reconstruction approach. Computers & Mathematics with Applications 2021, 81: 649-663. DOI: 10.1016/j.camwa.2020.01.020
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  11. Ming-Jian Li, Nian-Mei Zhang*, Ming-Jiu Ni*. Magneto-fluid-structure interaction issues for vibrating rigid bodies in conducting fluids: The numerical and the analytical approaches. Computers & Structures 2018, 210: 41-57. DOI: 10.1016/j.compstruc.2018.09.002
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  12. Long Chen, Ming-Jian Li, Ming-Jiu Ni, Nian-Mei Zhang*. MHD effects and heat transfer analysis in magneto-thermo-fluid-structure coupled field in DCLL blanket. International Communications in Heat and Mass Transfer 2017, 84: 110-120. DOI: 10.1016/j.icheatmasstransfer.2017.04.009
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  13. Ming-Jian Li, Xu-Dong Wang, Nian-Mei Zhang*. Comparative study on the performance of serrated interfaces in multi-layer pavements. Road Materials and Pavement Design 2017, 18(3): 670-686. DOI: 10.1080/14680629.2016.1182940
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  14. Long Chen, Shi-Jing Xu, Ming-Jian Li, Ming-Jiu Ni, Nian-Mei Zhang*. Study on the impacts of pressure equalization slots on MHD flow and safety of FCI in DCLL blanket. Fusion Engineering and Design 2017, 122:204-210. DOI: 10.1016/j.fusengdes.2017.08.016
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  15. Ming-Jian Li, Jun-Hua Pan, Ming-Jiu Ni, Nian-Mei Zhang*. Heat transfer and thermal stress analysis in fluid-structure coupled field. Applied Thermal Engineering 2015, 88(5): 473-479. DOI: 10.1016/j.applthermaleng.2014.09.071
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EI / 中文核心论文
  1. 李明健,陈龙,张哲妍,倪明玖,张年梅*.包层模块几何特征对MHD流动和流道插件力学行为的影响. 中国科学:技术科学, 2019, 49(10): 1186-1196. (EI)
  2. Long Chen, Ming-Jian Li, Ming-Jiu Ni, Nian-Mei Zhang*. MHD Effects in the U-bend of DCLL Blanket. Procedia Engineering, 2015, 126: 461-465. (EI)
  3. 李明健,陈龙,倪明玖,张年梅*. 耦合物理场中包层的流动传热和结构安全分析. 工程热物理学报, 2015, 36(6): 1339-1344. (EI)
  4. Ming-Jian Li, Xu-Dong Wang, Nian-Mei Zhang*. Finite deformation analysis of layered asphalt pavement. Journal of Applied Sciences 2013, 13(12): 2146-2150. (EI)
  5. 刘健健,李明健,陈龙,倪明玖,张年梅*. 流道插件在高温和磁流体作用下的力学行为. 中国科学院大学学报, 2016, 33(4): 462-467. (中文核心)
  6. 李明健,陈龙,倪明玖,张年梅*. 多物理场中不同结构特征FCI的力学行为分析. 应用数学和力学, 2015, 36(3): 252-261. (中文核心)
  7. 李明健,刘省勇,张年梅*. 磁-热-流体耦合场中矩形薄板的非线性振动. 中国科学院大学学报, 2014, 31(6): 731-738. (中文核心)
奖项
  1. 王旭东,张年梅,周兴业,刘朝晖,李明健,关伟,李盛,肖倩,张蕾,黄优. 沥青路面材料非线性特征及结构分析方法,中国公路学会,科学技术奖,二等奖,2017.12.
专利 / 软件著作权
  1. 李明健,刘宇飞,李萌,黄小琦,耿新宇,李媛媛. 一种自压紧式薄膜天线展开机构,国家发明专利号:ZL202111169254.2,授权公告号:CN113904092B.
  2. 李明健,刘宇飞,李萌,黄小琦,耿新宇,李媛媛. 一种薄膜天线展开测试装置及其测试方法,国家发明专利号:ZL202111169253.8,授权公告号:CN113820117B.
  3. 廉艳平, 李明健,陈嘉伟. 选区激光熔化技术下成形件表面质量及残余应力预测方法,国家发明专利号:ZL202310953276.0,授权公告号:CN116680962B.
  4. 廉艳平, 陈嘉伟, 李明健. 一种选区激光熔化技术下熔池表面力的高精度计算方法,国家发明专利号:ZL202310953394.1,授权公告号:CN116705209B.
  5. 李明健. 反射阵列天线多物理场耦合设计软件V1.0,计算机软件著作权登记编号:2023SR1371918.
  6. 廉艳平,李乐辉,李明健. 三维高阶物质点法仿真软件(简称:BSMPM3D)(C++语言),计算机软件著作权登记编号:2023SR0470957
  7. 廉艳平,陈嘉伟,李明健. 金属增材制造的多物理场物质点法仿真软件(简称:AMMPM)(Fortran语言),计算机软件著作权登记编号:2023SR0433583
会议
  1. Efficient multi-physics numerical simulation methods for metal additive manufacturing process (Best Presentation Award). The 3rd International Conference on Research Advances in Additive Manufacturing, October 27-29, 2023, Nanjing, China.
  2. 金属增材制造流动传热问题的局部多网格有限体积法(口头报告). 中国计算力学大会,2023,8月20-23日,大连.
  3. 第一届全国数据驱动计算力学研讨会(组委会委员),2023,5月19-21日,大连.
  4. 空间太阳能电站大口径天线的光机电热耦合研究(口头报告). 2021年机械电子学学术会议,2021,4月15-17日,贵阳.
  5. Incompressible material point method with immersed boundary in fluid-structure interaction cases(Oral report). VI International Conference on Particle-based Methods, Fundamentals and Applications. October 28-30, 2019 Barcelona, Spain.
  6. 自由界面流固耦合问题中的不可压物质点法(口头报告). 中国力学大会,2019,8月25-28日,杭州.
  7. Conjugate numerical scheme for magneto-fluid-structure interaction problems with discontinuous conductivities (Oral report). CCCM–ISCM. August 19-23, 2018, Nanjing, China.
  8. 磁-流-固耦合算法发展及其应用(口头报告). 中国力学大会,2017,8月13-16日,北京.
  9. A Quadratic Stabilization Approach on Partitioned Fluid-Structure Interaction Algorithm(Oral report). The 8th International Conference on Computational Methods, July 25-29, 2017, Guilin, China.
  10. 一种任意欧拉-拉格朗日描述的流固耦合算法及其应用(口头报告). 第九届全国流体力学学术会议,2016,10月20-23日,南京.
  11. A Partitioned Dirichlet-Neumann Algorithm on Fluid-Structure Interaction Problems in ALE description (Oral report, Coupling Problems Chair). CCCM–ISCM, October 16-20, 2016, Hangzhou, China.
  12. Ming-Jian Li, Nian-Mei Zhang*. Partitioned ALE Algorithm on Fluid-Structure Interaction Problems (Oral report), The 11th Asian Computational Fluid Dynamics Conference, September 17-21, 2016, Dalian, China.
  13. 强磁场下包层的耦合力学行为和结构热应力分析(口头报告),第一届全国热应力大会,2015,12月11-13日,南京.
  14. 包层中磁流体传热和结构非线性振动分析(口头报告),中国工程热物理学会工程热力学与能源利用、热机气动热力学和流体机械学术会议,2015,11月27-30日,厦门.
  15. 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室 2015年度学术年会,9月23-25日,北京.
  16. 磁场对流道插件力学行为的非线性效应分析(口头报告),中国力学大会,2015,8月15-18日,上海.
  17. MHD Effects in the U-bend of DCLL Blanket (Oral report). 7th International Conference on Fluid Mechanics May 27, 2015, Qingdao, China
  18. FCI 的磁-热-流固耦合分析(口头报告),全国固体力学大会,2014,10月10-12日,成都.
  19. 多物理场中 FCI 力学行为分析(口头报告). 中国计算力学大会,2014,8月10-13日,贵阳.
  20. 磁-热耦合场中矩形薄板的非线性分析(口头报告). 中国力学大会,2013,8月19-21日,西安.
  21. 基于有限变形理论的层状沥青路面结构分析(口头报告). 中国计算力学大会,2012,11月8-11日,重庆.
mingjianli@bit.edu.cn