范海冬

范海冬

德國“洪堡”學者,四川大學力學系副系主任,四川大學吳玉章學院指導老師,美國Lawrence Livermore國家實驗室訪問科學家,美國Johns Hopkins大學博士後。獲四川大學“青年科技人才獎”、四川大學“優秀青年學者基金”、四川大學“好未來優秀學者獎”、四川大學“課堂教學質量優秀獎”(2016)、四川大學“課堂教學質量優秀獎”(2017)、四川大學“優秀本科畢業論文”指導老師(2017)、四川大學“優秀本科畢業論文”指導老師(2018)。

基本介紹

  • 中文名:范海冬
  • 出生日期:1985-3
  • 畢業院校:華中科技大學
  • 學位/學歷:博士
  • 通訊地址:四川大學行政樓125
基本信息,學習及工作經歷,主要研究領域,主持或參與的科研項目,代表性論著,

基本信息

德國“洪堡”學者
力學系副系主任
吳玉章學院指導老師
中國生物醫學工程學會會員
美國Lawrence Livermore國家實驗室訪問科學家
美國Johns Hopkins大學博士後
四川大學“青年科技人才獎”獲得者
四川大學“優秀青年學者基金”獲得者
四川大學“優秀青年人才計畫”入選者
四川大學“好未來優秀學者獎”獲得者(首屆)
四川大學“課堂教學質量優秀獎”獲得者(2016)
四川大學“課堂教學質量優秀獎”獲得者(2017)
四川大學“優秀本科畢業論文”指導老師(2017)
四川大學“優秀本科畢業論文”指導老師(2018)
International Journal of Plasticity, Acta Materialia, Scripta Materialia, Physica B, Computational Materials Science, Journal of Engineering Materials and Technology, Journal of Micromechanics and Molecular Physics等期刊審稿人

學習及工作經歷

2017.09-2018.08 德國馬普學會鋼鐵所 “洪堡”學者
2016.07-2016.10 香港大學訪問學者
2015.10至今 四川大學 副教授
2014.01-2015.07 美國Lawrence Livermore國家實驗室 訪問科學家
2013.07-2015.07 美國Johns Hopkins大學 博士後
2012.07-2015.09 四川大學 講師
2008.09-2012.06 華中科技大學 博士
2004.09-2008.06 華中科技大學 學士

主要研究領域

微納米力學與多尺度計算
輕金屬的微觀結構表征與力學性能模擬
極端條件材料力學行為
密集人群的安全疏散策略研究

主持或參與的科研項目

主持項目:
1國家自然科學基金聯合基金,U1730106,多晶金屬材料動態力學行為的位錯動力學塑性模型,2018.01-2020.12,68萬元
2國家自然科學基金面上項目,11672193,鎂合金中孿晶相關塑性與強韌化的微觀機理及多尺度模擬,2017.01-2020.12,52萬元
3國家自然科學基金青年基金,11302140,核輻射材料中無缺陷通道形成機理的多尺度研究,2014.01-2016.12,23萬元
4四川大學優秀青年學者基金,鎂及鎂合金中增韌機制的多尺度研究,2015.01-2016.12,20萬元
5四川大學啟動經費,0030504132003,小尺度材料表/界面性能的離散位錯機制研究,2012.10-2013.12,6萬元
6四川大學優秀青年人才計畫獎勵基金,2016.01-2017.12,5萬元
7教育部重點實驗室開放基金,2013KF02,核反應堆材料中缺陷演化的分子動力學研究,2013.06-2015.5,3萬元
參與項目:
8US Army Research Laboratory, W911NF-12-2-0022,Atomistic and Discrete Dislocation Dynamics Modeling of Mechanical Twinning and Plasticity in Magnesium,2012-2022
9國家自然科學基金重大科研儀器項目,11327801,複雜載荷-環境下超長壽命疲勞振動加速綜合實驗系統研製,2014.01-2018.12,800萬元
10國家自然科學基金面上項目,11672251,梯度納米晶粒/孿晶材料的本構建模及微結構最佳化設計,2017.01-2020.12,62萬
11國家自然科學基金面上項目,11272128,循環載荷下單晶高溫合金變形和裂紋形核擴展的位錯機理研究,2013.01-2016.12,86萬元
12國家自然科學基金面上項目,11072081,基於微結構的高溫合金單晶蠕變位錯機理及多尺度本構建模,2011.01-2013.12,45萬元

代表性論著

[1]H. Fan, A.H.W. Ngan, Kefu Gan, Jaafar A. El-Awady, Origin of double-peak precipitation hardening in metallic alloys,International Journal of Plasticity, Accepted, 2018.(SCI,IF=5.5,中科院一區)
[2]H. Fan, Yaxin Zhu, Jaafar A. El-Awady, Dierk Raabe, Precipitation hardening effects on extension twinning in magnesium alloys,International Journal of Plasticity, 106, 186-202, 2018.(SCI,IF=5.5,中科院一區)
[3]X. Tian, C. Zhou, X. He, Z. Zhou, Y. Chen, H. Guo,H. Fan, The evolution of anti-vortex like domain under electric field in polycrystalline ferroelectric,Composites Part B: Engineering, 154, 195-199, 2018.(SCI,IF=4.9,中科院二區)
[4]H. Fan, Y. Zhu, Q. Wang, Effect of precipitate orientation on the twinning deformation in magnesium alloys,Computational Materials Science, 155, 378-382, 2018.(SCI,IF=2.5,中科院三區)
[5]G.-D. Sim, G. Kim, S. Lavenstein, M.H. Hamza,H. Fan, J.A. El-Awady, Anomalous hardening in magnesium driven by a size-dependent transition in deformation modes,Acta Materialia, 144, 11-20, 2018.(SCI,IF=6.0,中科院一區)
[6]Q. Jiao, G.-D. Sim,H. Fan, J.A. El-Awady, Micro-mechanical characterization of micro-architectured tungsten coatings,Materials Science and Engineering: A, 705, 366-375, 2017.(SCI,IF=3.4,中科院二區)
[7]X. Tian, H. Guo, W. Jiang,H. Fan, X. He, Y. Chen, Lattice scale study of the interaction between the vortex and anti-vortex polarization domain, 2017.(EI)
[8]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.(SCI,IF=5.5,中科院一區)
[9]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.(SCI,IF=4.2,中科院一區)
[10]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.(SCI,IF=4.2,中科院一區)
[11]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.(綜述論文)
[12]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.(SCI,IF=4.2,中科院一區)
[13]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.(SCI,IF=6.0,中科院一區)
[14]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.(SCI,IF=4.2,中科院一區)
[15]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.(SCI,IF=3.6,中科院一區)
[16]H. Fan, J.A. El-Awady, Towards resolving the anonymity of pyramidal slip in magnesium,Materials Science and Engineering: A, 644, 318-324, 2015.(SCI,IF=3.4,中科院二區)
[17]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.(SCI,IF=2.4,中科院一區)
[18]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.(SCI,IF=2.4,中科院一區)
[19]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.(SCI,IF=2.1,中科院三區)
[20]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)
[21]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.(SCI,IF=2.4,中科院一區)
[22]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)
[23]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.(SCI,IF=4.2,中科院一區)
[24]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.(SCI,IF=4.2,中科院一區)
[25]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.(SCI,IF=2.8,中科院二區)
[26]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論文,IF=2.8,中科院二區)
[27]范海冬,小尺度材料力學行為的尺度效應及其離散位錯動力學機制,華中科技大學,博士論文,2012

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