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姓名:

范海冬

性别:

学位:

博士

职称:

副教授,硕士生导师

联系电话:

028-85406919

电子邮箱:

haidongfan8@foxmail.com

传真:

028-85406919

通讯地址:

四川大学行政楼125

邮编:

610065

【个人描述】

德国“洪堡”学者

美国Lawrence Livermore国家实验室访问科学家

美国Johns Hopkins大学博士后

四川大学“优秀青年学者基金”获得者

四川大学“优秀青年人才计划”入选者

四川大学“课堂教学质量优秀奖”获得者

四川大学“青年骨干教师”

四川大学“优秀本科毕业论文”指导老师

Scripta Materialia, Physica B, Journal of Engineering Materials and Technology, Journal of Micromechanics and Molecular Physics等期刊审稿人

Google Scholar主页: https://scholar.google.com/citations?user=M9bg29kAAAAJ&hl=en

【学习及工作经历】

2016.07-2016.10                   香港大学                                                                    访问学者

2015.10至今:                    四川大学                                                                    副教授,硕士生导师

2014.01-2015.07               美国Lawrence Livermore国家实验室                     访问科学家

2013.07-2015.07               美国Johns Hopkins大学                                        博士后

2012.07-2015.09               四川大学                                                                    讲师,入选优秀青年人才计划

2008.09-2012.06               华中科技大学                                                            获固体力学博士学位

2004.09-2008.06               华中科技大学                                                            获工程力学学士学位

【主要研究领域】

微纳米力学与多尺度计算

轻金属的微观结构表征与力学性能模拟

超常环境下材料力学行为

密集人群的安全疏散策略研究

【承担的主要课程】

工程力学(国家级精品课程)

材料力学(省级精品课程)

工程弹塑性力学

【主持或参与的科研项目】

主持项目:

1           国家自然科学基金面上项目,11672193,镁合金中孪晶相关塑性与强韧化的微观机理及多尺度模拟,2017.01-2020.1265万元

2           国家自然科学基金青年基金,11302140,核辐射材料中无缺陷通道形成机理的多尺度研究,2014.01-2016.1223万元

3           四川大学优秀青年学者基金,镁及镁合金中增韧机制的多尺度研究,2015.01-2016.1220万元

4           四川大学启动经费,0030504132003,小尺度材料表/界面性能的离散位错机制研究,2012.10-2013.126万元

5           四川大学优秀青年人才计划奖励基金,2016.01-2017.125万元

6           教育部重点实验室开放基金,2013KF02,核反应堆材料中缺陷演化的分子动力学研究,2013.06-2015.53万元

参与项目:

7           US Army Research Laboratory, W911NF-12-2-0022Atomistic and Discrete Dislocation Dynamics Modeling of Mechanical Twinning and Plasticity in Magnesium2012-2022200万美元

8           国家自然科学基金重大科研仪器项目,11327801,复杂载荷-环境下超长寿命疲劳振动加速综合实验系统研制,2014.01-2018.12800万元

9           国家自然科学基金面上项目,11672251,梯度纳米晶粒/孪晶材料的本构建模及微结构优化设计,2017.01-2020.1274

10        国家自然科学基金面上项目,11272128循环载荷下单晶高温合金变形和裂纹形核扩展的位错机理研究2013.01-2016.1286万元

11        国家自然科学基金面上项目,11072081基于微结构的高温合金单晶蠕变位错机理及多尺度本构建模2011.01-2013.1245万元

【代表性论著】

[1]       Y. Zhu, Z. Li, M. Huang, H. Fan, Study on interactions of an edge dislocation with vacancy-H complex by atomistic modelling, International Journal of Plasticity, 92, 31-44, 2017.

[2]       H. Fan, J. Tang, X. Tian, Q. Wang, X. Tian, J.A. El-Awady, Core structures and mobility of c dislocations in magnesium, Scripta Materialia, 135, 37-40, 2017.SCIIF=3.3

[3]       H. Fan, Q. Wang, X. Tian, J.A. El-Awady, Temperature effects on the mobility of pyramidal <c + a> dislocations in magnesium, Scripta Materialia, 127, 68-71, 2017.SCIIF=3.3

[4]       J.A. El-Awady, H. Fan, A.M. Hussein, Discrete Dislocation Dynamics: Recent Advances in Modeling Size-Affected Plasticity, Multiscale Materials Modeling for Nanomechanics, 2016.(综述论文)

[5]       H. Fan, S. Aubry, A. Arsenlis, J.A. El-Awady, Grain size effects on dislocation and twinning mediated plasticity in magnesium, Scripta Materialia, 112, 50-53, 2016.SCIIF=3.3

[6]       H. Fan, S. Aubry, A. Arsenlis, J.A. El-Awady, The role of twinning deformation on the hardening response of polycrystalline magnesium from discrete dislocation dynamics simulations, Acta Materialia, 92, 126-139, 2015.SCIIF=5.1

[7]       H. Fan, S. Aubry, A. Arsenlis, J.A. El-Awady, Orientation influence on grain size effects in ultrafine-grained magnesium, Scripta Materialia, 97, 25-28, 2015.SCIIF=3.3ESI高被引论文)

[8]       Z.H. Aitken, H. Fan, J.A. El-Awady, J.R. Greer, The effect of size, orientation and alloying on the deformation of AZ31 nanopillars, Journal of the Mechanics and Physics of Solids, 76, 208-223, 2015.SCIIF=3.9ESI高被引论文)

[9]       H. Fan, J.A. El-Awady, Towards resolving the anonymity of pyramidal slip in magnesium, Materials Science and Engineering: A, 644, 318-324, 2015.SCIIF=2.6

[10]    H. Fan, J.A. El-Awady, Q. Wang, Towards further understanding of stacking fault tetrahedron absorption and defect-free channels A molecular dynamics study, Journal of Nuclear Materials, 458, 176-186, 2015.SCIIF=2.2ESI高被引论文)

[11]    H. Fan, Q. Wang, C. Ouyang, Comprehensive molecular dynamics simulations of the stacking fault tetrahedron interacting with a mixed dislocation at elevated temperature, Journal of Nuclear Materials, 465, 245-253, 2015.SCIIF=2.2

[12]    H. Fan, J.A. El-Awady, Molecular Dynamics Simulations of Orientation Effects During Tension, Compression, and Bending Deformations of Magnesium Nanocrystals, Journal of Applied Mechanics, 82, 101006-101006, 2015.SCIIF=1.4

[13]    H. Fan, S. Aubry, A. Arsenlis, J.A. El-Awady, Discrete dislocation dynamics simulations of twin size-effects in magnesium, MRS Proceedings, 1741, mrsf14-1741-aa1702-1702, 2015. (EI)

[14]    H. Fan, Q. Wang, A complete absorption mechanism of stacking fault tetrahedron by screw dislocation in copper, Journal of Nuclear Materials, 441, 211-215, 2013.SCIIF=2.2

[15]    H. Fan, Q. Wang, M.K. Khan, Cyclic bending response of single- and polycrystalline thin films: two dimensional discrete dislocation dynamics, Applied Mechanics and Materials, 275 - 277, 132-137, 2013.EI

[16]    H. Fan, Z. Li, M. Huang, Toward a further understanding of intermittent plastic responses in the compressed single/bi-crystalline micro-pillars, Scripta Materialia, 66, 813-816, 2012.SCIIF=3.3

[17]    H. Fan, Z. Li, M. Huang, Size effect on the compressive strength of hollow micropillars governed by wall thickness, Scripta Materialia, 67, 225-228, 2012.SCIIF=3.3

[18]    H. Fan, Z. Li, M. Huang, X. Zhang, Thickness effects in polycrystalline thin films: Surface constraint versus interior constraint, International Journal of Solids and Structures, 48, 1754-1766, 2011.SCIIF=2.1

[19]   C. Ouyang, Z. Li, M. Huang, H. Fan, Cylindrical nano-indentation on metal film/elastic substrate system with discrete dislocation plasticity analysis: A simple model for nano-indentation size effect, International Journal of Solids and Structures, 47, 3103-3114, 2010.SCI论文,IF=2.1

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