孙丰伟
发布时间:2020-01-08 | 来源:suncitygroup太阳集团 | 阅读数:

 




   :孙丰伟                性别:男            民族:汉                      

所学专业:计算力学                      学历:博士      

 

 

教育经历

2002.9-2006.6

吉林大学材料科学与工程学院

材料成型及控制工程

学士

2006.9-2009.6

中国海洋大学信息学院

凝聚态物理

硕士

2009.9-2013.9

代尔夫特理工大学(荷兰)

Delft University of Technology

计算力学

博士

工作、实习经历                                                              

2008.6-2008.9

香港城市大学

研究助理

 2013.10-2015.10             代尔夫特理工大学                   研究员

 2015.11-2019.12            利莫瑞克大学伯纳尔研究所       研究员

 2020.1-现在                          太阳成集团                副教授

研究兴趣及经历                                                      

  • 多尺度模拟高温马氏体P91MarBN微观结构及力学性质。

  • 采用不连续位错(Discrete Dislocation)的方法研究粗糙金属表面接触及摩擦。

  • 采用分子动力学(MD)和密度泛函理论(DFT)研究碳/金属/合金纳米线的螺旋形生长和结构优化。

  • 碳纳米管及其纳米合金材料的力学行为研究。

  • 半导体纳米线场效应晶体管电子输运特性。

  • 金属液体的凝固及相变。

  • 镁基复合材料硬度与硼化钛颗粒尺寸及微观结构的关系。

发表论文                                                            

  • Meade, E. D.,Sun, F. W.*,Tiernan, P.,O`Dowd, N.*, A multiscale experimentally-based finite element model to predict microstructure and damage evolution in martensitic steels, International Journal of Plasticity, 139, 102966 (2021).

  • Sun, F. W., E. D. Meade, N. P. O`Dowd, Strain gradient crystal plasticity modelling of size effects in a hierarchical martensitic steel using the Voronoi Tessellation method, International Journal of Plasticity, 119, 215 (2019).

  • Sun, F. W., E. D. Meade, N. P. O`Dowd. Microscale modelling of the deformation of a martensitic steel using the Voronoi Tessellation method, Journal of the Mechanics and Physics of Solids, 113, 35, (2018).

  • Sun, F. W., Van der Giessen, E., &Nicola, L, Dry friction of metal asperities: a dislocation dynamics analysis, Acta Materialia, 109, 162 (2016).

  • Sun, F. W, Van der Giessen, E., Nicola, L, Plastic flattening of a sinusoidal metal surface: a discrete dislocation plasticity study, Wear. 296, 672-680 (2012).

  • Sun, F. W., H. Li, K.M. Liew, Compressive mechanical properties of carbon nanotubes encapsulating helical copper nanowires, Carbon. 48(5), 1586-1591 (2010).

联系方式                                                            




Fengwei Sun

» Education

  • Delft University of Technology, Delft, The Netherlands

    PhD researcher, 2009.09 ~  2013. 09

    Major: Computational mechanics

  • Ocean University of China, Department of Physics, China.

    MSc. 2006. 09~  2009. 07

    Major: Condensed Matter Physics

  • Jilin University, School of Materials Science and Engineering, China.

    BE. 2002. 09~ 2006. 07

    Major: Material forming and control engineering

    » Work and Internship Experience

  • City University of Hong Kong, Hong Kong, China

    Research assistant, 2008. 06  ~2008. 09

  • Delft University of Technology, Delft, The Netherlands

    Researcher, 2013. 10 ~ 2015. 10

  • School of Engineering, Bernal Institute, University of Limerick, Ireland

    Researcher, 2015.11 ~ 2019. 12

  • College of Aerospace and Engineering, Chongqing University, China

    Associate professor, 2020. 01~ now

    » Fields of interest and research experience

  • Microstructure and Mechanical modelling (damage and crack initiation) of high temperature martensitic steel (P91 and MarBN) with crystal plasticity model.

  • Dislocation dynamics simulations of metallic crystal materials.

  • Tribology and contact between rough surface on different size scales with crystal plasticity and discrete dislocation plasticity.

  • Growth and structure optimization of carbon/metallic/alloy nanowires using MD, density function theory (DFT) and  Monte Carlo method.

  • Mechanical properties of carbon/alloy nanowires using MD.

  • Fluid solidification and phase transformation.

  • Electronic transport and field effect transistor properties of semiconductor nanowires.

    » Publications

    Journal papers:

  • Meade, E. D.,Sun, F. W.*,Tiernan, P.,O`Dowd, N.*, A multiscale experimentally-based finite element model to predict microstructure and damage evolution in martensitic steels, International Journal of Plasticity, 139, 102966 (2021).

  • Sun, F., E. D. Meade, N. P. O`Dowd. Strain gradient crystal plasticity modelling of size effects in a hierarchical martensitic steel using the Voronoi Tessellation method, International Journal of Plasticity, 119, 215 (2019).

  • Sun, F., E. D. Meade, N. P. O`Dowd. Microscale modelling of the deformation of a martensitic steel using the Voronoi Tessellation method, Journal of the Mechanics and Physics of Solids 113, 35, (2018).

  • Sun, F., Van der Giessen, E., &Nicola, L, Dry friction of metal asperities: a dislocation dynamics analysis, Acta Materialia, 109, 162 (2016).

  • Sun, F., Van der Giessen, E., Nicola, L, Plastic flattening of a sinusoidal metal surface: a discrete dislocation plasticity study, Wear. 296, 672-680 (2012).

  • Sun, F., H. Li, K.M. Liew, Compressive mechanical properties of carbon nanotubes encapsulating helical copper nanowires, Carbon. 48(5), 1586-1591 (2010).

     

    » Contact information

  • Address: Room 409, Science Building, Compus A, No. 174 Shazheng Street, Shapingba District, Chongqing, China

  • Email: f.sun@cqu.edu.cn, sfw719@126.com

     

 



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