教师名录
李东风
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个人简介

长期致力于研究金属结构和材料超常环境下的使役性能,研究手段包括高性能多尺度计算模拟以及多尺度材料实验;正在主持和参与完成了多项重要科研项目;研究成果进入1项国家标准,1项行业标准,1项行业指导性技术文件;发表多篇研究论文于重要的国际力学和材料学期刊,包括J. Mech. Phys. Solids及Acta Mater等;曾获1次美国机械工程师协会the Sam Y. Zamrik论文奖,2次美国机械工程师协会杰出会议论文奖。

招生信息:
每年有硕士生,博士生及博士后招收名额。欢迎具有力学,材料和土木等背景的人士与我联系。

研究方向

金属结构的多尺度强度分析设计;工程结构的疲劳和蠕变断裂分析;加工制造中多物理问题的计算模拟;残余应力测量和评估;原位中子及高能X射线衍射

教育经历

1995.09-1999.06  北京清华大学工程力学系本科生,获学士学位
1999.09-2005.01  北京清华大学固体力学直博研究生,获博士学位同时获固体力学硕士学位

研究与工作经历

2001.09-2005.08  北京清华大学博士研究生助研
2005.09-2006.08  法国特鲁瓦技术大学博士后
2006.10-2008.12  香港理工大学副研
2009.01-2014.05  爱尔兰利默里克大学博士后
2014.06-2015.08  爱尔兰利国立大学(高威)博士后、兼职讲师
2015.09-至今  哈尔滨工业大学深圳研究生院教授

专业资质与学术兼职

2015-2018  爱尔兰国立大学(高威)兼职教授 (Adjunct Professor)
2014-2015  爱尔兰国立大学(高威)兼职讲师 (Adjunct Lecturer)
2009-至今  担任Engineering Fracture Mechanics, Computational Material Science, International Journal of Solids and Structures, Theoretical and Applied Fracture Mechanics等学术期刊的评论员
2009  美国机械工程师协会(ASME)会员

科研项目

2016.11-2019.11  深圳市基础学科布局项目:航空发动机核心热端部件残余应力效应的多尺度研究,主持
2015.09-2018.09  中组部千人计划青年项目:海洋结构物的多尺度力学行为,主持
2015.09-2018.09  哈尔滨工业大学人才计划启动项目:马氏体焊缝中跨临界热影响区高温疲劳和蠕变行为的多尺度有限元计算和实验研究,主持
2011.03–2015.08  爱尔兰科学基金项目,批准号SFI/10/IN.1/I3015:火电系统中先进的高温材料的多尺度,热机械表征,参与
2008.10–2010.10  爱尔兰科学基金项目,批准号SFI/08/RFP/ENM1477:含残余应力的高温部件的断裂力学性能评估程序的开发,参与
2009.10–2014.01  英国卢瑟福国家实验室及瑞士保罗谢勒实验室项目:不锈钢和马氏体钢的原位中子衍射测量(包含一系列的实验计划),主持
2015.05–2016.05  爱尔兰高性能计算中心B类项目:P91马氏体钢焊接部位临界热影响区高温条件下低周疲劳行为的多尺度模拟,主持
2011.08–2013.08  爱尔兰高性能计算中心B类项目:多晶体高温变形和断裂行为的微尺度研究,参与
2005.09–2006.08  法国教育部资助的博士后基金:非均匀介质中多裂纹,夹杂之间强相互作用的断裂力学评估,主持
2007.10–2010.09  香港研资局项目:一种高强度高韧性的工程结构材料-层合纳米结构金属板的开发,参与
2001.09–2005.08  全国锅炉压力容器标准化技术委员会和清华大学共同资助项目:支管载荷作用下大开孔圆柱壳接管的薄壳理论解,参与

科研成果及奖励

科研成果奖励:  
2005  ASME压力容器及管道部年度最佳期刊论文奖-The Sam Y. Zamrik Literature Award
2005  北京清华大学优秀博士论文一等奖
2006  ASME压力容器及管道部年会杰出会议论文奖
2010  科研工作《圆柱壳大开孔接管薄壳理论解与工程设计方法》通过了教育部科技成果鉴定,成果已用于JB4732-2005和GB150-2011压力容器设计规范
2013  ASME压力容器及管道部年会杰出会议论文奖
荣誉奖励:  
2015  第11批国家千人计划青年项目,中共中央组织部
2016  深圳市海外高层次人才B类,深圳市政府

发明专利

论文及著作

期刊论文
1. Li D.F., Barrett R.A., O'Donoghue P., O'Dowd N.P., Leen S.B., 2017.“A multi-scale crystal plasticity model for cyclic plasticity and low-cycle fatigue in P91 steel at elevated temperature.” Journal of the Mechanics and Physics of Solids, 101, 44-62.

2. Li M., Sun F.W., Barrett R.A., Meade E., Li D.F., O'Donoghue P., Leen S.B., O'Dowd N.P., 2017. "Influence of material inhomogeneity on the mechanical response of a tempered martensite steel." Journal of Materials: Design and Application, 0(0), 1-9.

3. Golden B.J., Li D.F., Guo Y.N., Tiernan P., Leen S.B., O'Dowd N.P., 2016. “Microscale deformation of a tempered martensite ferritic steel: Modelling and experimental study of the grain and sub-grain interactions.” Journal of the Mechanics and Physics of Solids, 86, 42-52.

4. Li D.F., Barrett R.A., O'Donoghue P., Hyde Chris, O'Dowd N.P., Leen S.B., 2016. “Micromechanical finite element modelling of thermo-mechanical fatigue for P91 steels.” International Journal of Fatigue, 87, 192-202.

5. Li D.F., Golden B., O'Dowd N.P., 2014. “Multiscale modelling of mechanical response in a martensitic steel: A micromechanical and length-scale dependent framework for precipitate hardening.” Acta Materialia, 80, 445–456.

6. Li D.F., Golden B., Zhang S.Y., Davydov V., Tiernan P., O'Dowd N.P., 2014. “The role of plasticity in transverse lattice strain evolution of a martensitic steel during in-situ tensile test.” Metallurgical and Materials Transactions A, 45A, 5829–5833.

7. Golden B.J., Li D.F., O'Dowd N.P., Tiernan P. 2014. “Microstructural modelling of P91 martensitic steel under uniaxial loading conditions.” Journal of Pressure Vessel Technology-Transactions of the ASME. 136 (2014), 021404.

8. Dong Y.C., Li D.F., Hampshire S., Zhou J.E., Dickinson C., Zhou X.L., Ling Y.H., Meng G.Y., 2013. “A high-strength Sm-doped CeO2 oxide-ion conducting electrolyte membrane for solid oxide fuel cell application” RSC Advances. 3, 17395–17401.

9. Li D.F., Davies C.M., Zhang S.Y., Dickinson C., O'Dowd N.P., 2013. “The effect of prior deformation on the subsequent microplasticity evolution in stainless steel at elevated temperature.” Acta Materialia, 61, 3575–3584.

10. Li D.F., O'Dowd N.P., 2011. “On the evolution of lattice deformation in austenitic stainless steels–The role of work hardening at finite strains.” Journal of the Mechanics and Physics of Solids, 59, 2421–2441.

11. Chen A.Y., Li D.F., Zhang J.B., Liu F., Liu X.R., Lu J., 2011. “Study of toughening mechanisms through the observations of crack propagation in nanostructured and layered metallic sheet.” Materials Science and Engineering A, 528, 8389–8395.

12. Li D.F., O'Dowd N.P., Davies C.M., Zhang S.Y., 2011. “Measurement and prediction of the microscale deformation of an austenitic stainless steel under uniaxial loading.” European Journal of Mechanics–A/Solids, 30, 748–760.

13. Li D.F., O'Dowd N.P., Davies C.M., Nikibin K.M., 2010.“A review of the effect of prior inelastic deformation on high temperature mechanical response of engineering alloys.” International Journal of Pressure Vessels and Piping, 87, 531–542.

14. Li D.F., Li C.F., Qing H., Lu J., 2010. “The elastic T-stress for slightly curved or kinked cracks.” International Journal of Solids and Structures, 47, 1753–1763.

15. Li D.F., Li C.F., Shu S.Q., Wang Z.X., Lu J., 2008. “A fast and accurate analysis of the interacting cracks in linear elastic solids.” International Journal of Fracture, 151(2), 169–185.

16. Chen A.Y., Li D.F., Zhang J.B., Song H.W., Lu J., 2008. “Make nanostructured metal exceptionally tough by introducing non-localized fracture behaviors.” Scripta Materialia, 59(6), 579–582.

17. Li C.F., Feng Y.T., Owen D.R.J., Li D.F., Davis I.M., 2008. “A Fourier-Karhunen-Loeve discretization scheme for stationary random material properties in SFEM.” International Journal for Numerical Methods in Engineering, 73(13), 1942–1965.

18. Wang Z.X., Shi H.J., Lu J., Li D.F., Ma X.F., 2008. “An updated continuum damage model in DBTT to investigate fracture process of structures.” International Journal of Fracture, 151(2), 199–215.

19. Qing H., Yang W., Lu J., Li D.F., 2008. “Thermal-stress analysis for a strip of finite width containing a stack of edge cracks.” Journal of Engineering Mathematics, 61(2-4), 161–169.

20. Shu S.Q., Lu J., Li D.F., 2007. “A systematic study of the validation of Oliver and Pharr’s method.” Journal of Materials Research, 22(12), 3385–3396.

21. Xue M.D., Du Q.H., Li D.F., Hwang K.C., 2006. “Theoretical stress analysis of intersecting cylindrical shells subjected to external forces on nozzle.” Journal of Pressure Vessel Technology-Transactions of the ASME, 128(1), 71–83.

22. Xue M.D., Li D.F., Hwang K.C., 2005. “A thin shell theoretical solution for two intersecting cylindrical shells due to external branch pipe moments.” Journal of Pressure Vessel Technology-Transactions of the ASME, 127(4), 357–368. (此文获ASME压力容器及管道分会颁发的年度最佳期刊论文奖-The Sam Y. Zamrik Literature Award)

23. Xue M.D., Li D.F., Hwang K.C., 2005. “Theoretical stress analysis of intersecting cylindrical shells subjected to external loads transmitted through branch pipes.” International Journal of Solids and Structures, 42, 3299–3319.

24. Xue M.D., Li D.F., Hwang K.C., 2004. “Analytical solution for two intersecting cylindrical shells due to transverse moment on nozzle.” International Journal of Solids and Structures, 41, 6949–6862.

25. 李东风,薛明德,2005. “圆柱壳受集中载荷作用的奇异解.” 清华大学学报,45(8), 1083–1087.

26. 薛明德,李东风,黄克智,2004. “支管外力矩作用下带径向接管的圆柱壳的局部应力分析.” 压力容器技术, 21(1), 18–23.

27. 夏原, 董延,李东风,2003. “热浸铝过程中表面层厚度动态控制模型.” 中国有色金属学报, 13, 1202–1205.

会议论文及发表演说

会议论文
1. Golden B.J., Li D.F., Tiernan P., Scully S., O'Dowd N.P., 2015. “Deformation characteristics of a high-chromium, power plant steel at elevated temperatures.” Proceedings of 2015 ASME Pressure Vessels and Piping Division Conference, July 2015, Boston, USA.

2. Li D.F., Golden B., O'Dowd N.P., Tiernan P., 2013. “Modelling of micro-plasticity evolution in crystalline materials.” Proceedings of 2013 ASME Pressure Vessels and Piping Division Conference, July 2013, Paris, France.

3. Golden B., Li D.F., O'Dowd N.P., 2013. “Microstructural modelling of P91 martensitic steel under uniaxial loading conditions.”Proceedings of 2013 ASME Pressure Vessels and Piping Division Conference, July 2013, Paris, France.

4. Li D.F., O'Dowd N.P., 2012. “Investigating ductile failure at the microscale in engineering steels: A micromechanical finite element model.” Proceedings of 2012 ASME Pressure Vessels and Piping Division Conference, July 2012, Toronto, Ontario, Canada. (此文获2012年ASME压力容器分会杰出会议论文奖)

5. Li D.F., O'Dowd N.P., Davies C.M., Zhang S.Y., 2010. “Evaluating the mechanical behaviour of 316 stainless steel at the microscale using finite element modelling and in-situ neutron scattering.”Proceedings of 2010 ASME Pressure Vessels and Piping Division Conference, July 2010, Bellevue, WT, USA.

6. Xue M.D., Du Q.H., Li D.F., Hwang K.C., 2006. “A stress analysis method for cylindrical shells with nozzles subjected to internal pressure, external forces and moments.” Proceedings of 2006 ASME Pressure Vessels and Piping Division Conference, July 2006, Vancouver, Canada. (此文获2006年ASME压力容器分会杰出会议论文奖)

7. 薛明德,李东风,黄克智 ,圆柱壳开孔接管分析设计方法的研究进展,第五届全国压力容器学术会议,2001.9.1-2001.9.2

邀请报告
1. “基于多尺度分析的火电工程结构完整性评估”,南方科技大学力学与航空航天系邀请报告,2016年12月13日,深圳。

2. “晶体塑性多尺度模拟及其在火电系统中的应用”,中科院深圳先进院邀请报告,2016年10月19日,深圳。

3. “P91钢高温循环塑性及疲劳裂纹萌生的多尺度模拟”, 第十八届全国疲劳与断裂学术会议, 2016年4月15-17日,郑州。

4. “A multi-scale crystal plasticity model for cyclic plasticity and fatigue in P91 steel at elevated temperature” PLASTICITY 2016, Sheraton Kona Resort & Spa at Keauhou Bay, Big Island, Hawaii, January 3-9, 2016.

5. “Micromechanical modelling of high temperature fatigue crack initiation in P91 steel” Joint symposium of Irish Mechanics Society Irish Society for Scientific & Engineering, 8th–9th December 2014, National University of Ireland, Galway, Ireland.

6. “Bottom-up multiscale modelling of microstructural response in a P91 martensitic steel” 6th International Conference on Advanced Computational Methods in Engineering, 23rd-28th June 2014, University of Kent, Belgium.

7. “Micromechanical and length-scale dependent modelling of mechanical response in P91 martensitic steel for fossil-fuel power generation” Joint symposium of Irish Mechanics Society Irish Society for Scientific & Engineering Computation Advances in Mechanics, Thursday 5th & Friday 6th December 2013, University College Dublin, Ireland.

8. “Modelling of micro-plasticity evolution in crystalline materials”Proceedings of 2013 ASME Pressure Vessels and Piping Division Conference, July 2013, Paris, France.

9. “Investigating ductile failure at the microscale in engineering steels: A micromechanical finite element model” Proceedings of 2012 ASME Pressure Vessels and Piping Division Conference, July 2012, Toronto, Ontario, Canada.

10. “Lattice strain and texture evolutions in an austenitic stainless steel under uniaxial loading at ambient temperature” The 21st International Workshop on Computational Mechanics of Materials, August 2011, Limerick, Ireland.

11. “Microscale deformation of an austenitic stainless steel at ambient and elevated temperatures”Engineering and Informatics Research Day, National University of Ireland, Galway, April 2011, Galway, Ireland.

12. “Evaluating the mechanical behaviour of 316 stainless steel at the microscale using finite element modelling and in-situ neutron scattering” Proceedings of 2010 ASME Pressure Vessels and Piping Division Conference, July 2010, Bellevue, WT, USA.

13. “Crystal plasticity model for investigating high temperature mechanical response of 316H stainless steel” Joint symposium of Irish Mechanics Society, Irish Society for Scientific & Engineering Computation, Advances in Mechanics, May 2010, Dublin, Ireland.

14. “Measurement and prediction of the microscale mechanical response of 316 stainless steel using in-situ neutron diffraction and finite element modelling” Institutional seminar, January 2010, Materials and Surface Science Institute, University of Limerick, Ireland.

15. “Making nanostructured material exceptionally tough” Institutional seminar, April 2009, Materials and Surface Science Institute, University of Limerick, Limerick, Ireland.

16.“Toughening nanostructured materials by introducing non-localized fracture behaviours” The 6th International Forum on Advanced Material Science and Technology, June 2008, Hong Kong, China.

任教和任导师经历

任教  2012年于爱尔兰利默里克大学讲授研究生课程《非线性断裂力学》
2014年于爱尔兰利国立大学(高威)讲授研究生课程《高等材料力学》
2016年于哈尔滨工业大学深圳研究生院英文讲授研究生课程《非线性材料力学》
任导师  2005年至2015年协助及共同指导了7名博士生,2名硕士生和3名本科生
2015年至今指导3名硕士生
详细信息如下:
1. 2015年至2017年,在哈尔滨工业大学深圳研究生院指导硕士生吴恬颖,研究题目:钢材腐蚀过程模拟及其在钢筋混凝土中的应用。
2. 2015年至2017年,在哈尔滨工业大学深圳研究生院指导硕士生郭河杰,研究题目:基于晶体塑性模型的铝合金韧性断裂有限元模拟。
3. 2015年至2017年,在哈尔滨工业大学深圳研究生院指导硕士生冯魁元,研究题目:混凝土开裂的细观力学模拟研究。
4. 2014年至2016年,在高威爱尔兰国立大学与Sean Leen教授和Padraic O’Donoghue 教授共同指导博士生李明。研究题目: 电力系统中马氏体钢焊接结构的高温疲劳分析。
5. 2011年至2014年,在爱尔兰利默里克大学协助Noel O'Dowd教授指导博士生Brian Golden。研究题目: 电力系统中马氏体钢的微结构效应研究。
6. 2014年至2015年,在高威爱尔兰国立大学协助Sean Leen教授指导博士生Richard Barrett。研究题目: 电力系统中马氏体钢的高温疲劳行为研究。
7. 2013年,在爱尔兰利默里克大学协助Peter Tiernan博士(高级讲师)指导博士生Vlad Ivashyn。 研究题目:镍钛合金多轴变形行为的实验和计算研究。
8. 2013年,在爱尔兰利默里克大学协助Peter Tiernan博士(高级讲师)指导本科实习生Jeff Tahiata。 研究题目: 双向拉伸试样的应力场有限元模拟分析。
9. 2011年至2012年,在爱尔兰利默里克大学协助Noel O'Dowd教授指导硕士生Selvinprince Prabhakar-Inbaraj。研究题目: 基于数值模拟的金属材料微尺度行为研究。
10. 2011年至2012年,在爱尔兰利默里克大学协助Noel O'Dowd教授指导硕士生赵佟。研究题目:颗粒增强复合材料的弹塑性计算分析。
11. 2009年至2011年,在爱尔兰利默里克大学协助Noel O'Dowd教授指导Hamed Yazdani-Nezhad博士。研究题目:316H奥氏体不锈钢中初始变形对后续高温蠕变的影响。
12. 2010年,在爱尔兰利默里克大学协助Noel O'Dowd教授指导本科生Alan O'Donovan。研究题目:各项异性多晶体弹性均匀化的有限元模拟。
13. 2007年至2008年,在香港理工大学协助吕坚教授指导上海交通大学的陈爱英博士的博士课题。研究题目:高强度高韧性纳米结构钢的实验研究。
14. 2005年至2006年,在北京清华大学协助薛明德教授指导杜青海博士的博士课题。研究题目:外载荷作用下两正相交圆柱壳的薄壳理论解。
最后更新:2018-06-07 10:17:53