副教授
杨 帆
发布时间 : 2016-12-20

   


    杨帆,副教授,博士生导师。先后于2004年和2009年在清华大学取得学士和博士学位,之后在美国俄亥俄州立大学和加拿大多伦多大学做博士后研究,于2014年加入同济大学工作。专业固体力学,侧重模拟仿真。在纳晶金属的断裂行为,聚合物纳米薄膜的力学性能,喷丸强化与喷丸成形机理,薄壁管件的抗冲击吸能性能,封装电路板的热应力等方向取得系列成果。在国际期刊发表学术论文二十多篇,包括固体力学顶级期刊J Mech Phys Solids, Int J Solids Struct。参加国际学术会议并做学术报告多次。担任上海市力学学会固体力学专业委员会秘书长,中国机械工程学会表面工程分会表层改性专业技术委员会副秘书长,航力学院学位审核秘书等职务,2015级研究生班主任,《力学季刊》编辑。

  

主持科研项目:

1.国家自然科学基金青年科学基金项目,11402173,聚合物充填处理的电路板在热力载荷下的失效研究,2015/01-2017/12

2.上海市教委科研创新项目,15zz018,喷丸表面处理有效性和可靠性的机理研究,2015/01-2016/12

3.同济大学英才计划优青项目,20143401,2014/09-2016/08

  


EDUCATION

Ph.D. in Solid Mechanics, School of Aerospace, TsinghuaUniversity, Dec.2005-Jul.2009

M.S. in Mechanics, Department of Engineering Mechanics, TsinghuaUniversity, Sep.2004-Dec.2005

B.S. in Mechanics, Department of Engineering Mechanics, TsinghuaUniversity, Sep.1999-Jul.2004


EMPLOYMENT

▪ Associate Professor, School of Aerospace Engineering and Applied Mechancis, TongjiUniversity, Apr.2014-present

▪ Postdoctoral Fellow, Department of Mechanical and Industrial Engineering, University of Toronto, Aug.2011-Mar.2014

Postdoctoral Researcher, Nanoscale Science and Engineering Center, The Ohio State  University, Aug.2009-Jul.2011


SPECIALIZATION

ØSolid mechanics with focus on modeling, simulation and analysis.

ØMechanical behavior of materials including constitutive law, fracture, damage and fatigue.

ØDynamic responses of structures, wave propagation, shock attenuation and particle erosion resistance.

ØReliability prediction and evaluation, structural design.

ØMulti-scale computation involving both atomistic simulation and continuum mechanics analysis.

ØScientific programming, parallel computation, software application and development.



发表期刊论文

Publications

[1]Fan Yang, Shaker A. Meguid*, A. M. S. Hamouda, Kinematically admissible folding mechanisms: for the progressive collapse of foam filled conical frustaInternational Journal of Mechanics and Materials in Design2017.01.06, DOI: 10.1007/s10999-016-9364-z

[2]Fan Yang*, Yukui Gao, Predicting the peen forming effectiveness of Ti-6Al-4V strips with different thicknesses using realistic finite element simulations. Journal of Engineering Materials and Technology, 2016, 138(1): 011004

[3]Fan Yang, Zheng Zhong*, On the energy conservation during the active deformation in molecular dynamics simulations, Journal of Mechanics and Physics in Solids, 2015, 77: 146-157

[4]Fan Yang, Zhuo Chen, Shaker A. Meguid*, Effect of initial surface finish on effectiveness of shot peening treatment using enhanced periodic cell model, International Journal of Mechanics and Materials in Design, 2015, 11(4): 463-478

[5]Fan Yang, Zhuo Chen, Shaker A. Meguid*, 3D FE modeling of oblique shot peening using a new periodic cell, International Journal of Mechanics and Materials in Design, 2013, 10(2): 133-144

[6]Fan Yang, Shaker A. Meguid*, Efficient multi-level modeling technique for determining effective board drop reliability of PCB assembly, Microelectronics Reliability, 2013, 53(7): 975-984

[7]Na Zhang#, Fan Yang#, Changyu Shen, Jose Castro, James L. Lee*, Particle erosion on carbon nanofiber paper coated carbon fiber/epoxy composites, Composites part B, 2013, 54: 209-214

[8]Na Zhang#, Fan Yang#, Dante Guerra, Changyu Shen, Jose Castro, James L. Lee*, Enhancing particle erosion resistance of glass-reinforced polymeric composites using carbon nanofiber-based nanopaper coatings, Journal of Applied Polymer Science, 2013, 129(4): 1875-1881

[9]Na Zhang#, Fan Yang#, Lei Li, Changyu Shen, Jose Castro, James L. Lee*, Thickness effect on particle erosion resistance of thermoplastic polyurethane coating on steel substrate, Wear, 2013, 303(1-2): 49-55

[10]Fan Yang, Somnath Ghosh*, James L. Lee, Molecular dynamics based size and rate dependent constitutive model of polystyrene thin films, Computational Mechanics, 2012, 50(2): 169-184

[11]Fan Yang, Wei Yang*, Crack growth versus blunting in nanocrystalline metals with extremely small grain size, Journal of Mechanics and Physics in Solids, 2009, 57(2): 305-324

[12]Fan Yang, Wei Yang*, Kinetics and size effect of grain rotations in nanocrystals with rounded triple junctions, Scripta Materialia, 2009, 61(9): 919-922.

[13]Fan Yang, Wei Yang*, Brittle versus ductile transition of nanocrystalline metals, International Journal of Solids and Structures, 2008, 45(13): 3897-3907

[14]杨帆,杨卫*,从苍蝇与物面的触粘看尺度效应, 力学与实践, 2004, 26(4): 12-14

[15]黄河, 杨帆*,高玉魁,喷丸除锈过程及效果的数值模拟研究, 表面技术, 2016.11.01, 45(11)

[16]Shaker A. Meguid*, Fan Yang, P. Verberne, Progressive collapse of foam-filled conical frustum using kinematically admissible mechanism, International Journal of Impact Engineering, 2014, 82: 25-35

[17]Zhuo Chen, Fan Yang, Shaker A. Meguid*, Realistic finite element simulations of arc-height development in shot-peened almen strips, Journal of Engineering Materials and Technology, 2014, 136(4): 041002

[18]Zhuo Chen, Fan Yang, Shaker A. Meguid*, Multi-level modeling of woven glass/epoxy composite for multilayer printed circuit board applications, International Journal of Solids and Structures, 2014, 51(21-22): 3679-3688

[19]Shaker A. Meguid*, Zhuo Chen, Fan Yang, Effective mitigation of shock loads in embedded electronic packaging using bilayered potting materials, ASME Journal of Electronic Packaging, 2014, 136(4): 041005

[20]Xiangming Zhang, Nianke Ma, Fan Yang, Zhenhai Li, Wei Yang*, Experimental measurements of the biomechanical properties of cardiac tissues, Journal of Tsinghua University, Science and Technology, 2006, 46(11): 1941-1944

  

发表会议论文

Conferences

[1]Fan Yang*, Zheng Zhong, Surface effect on atomic mobility and mechanical properties of ultrathin polystyrene films from molecular dynamics simulationsSustainable Industrial Processing Summit, 2016Sanya, China2016.11.06-2016.11.10

[2]Fan Yang*, Continuum analysis of nano-indentation on polystyrene thin films based on molecular dynamics, 22nd Annual International Conference on Composites or Nano Engineering, Malta, 2014.07.13-07.19

[3]Fan Yang, Zhuo Chen, Shaker A. Meguid*, M. Guagliano, Realistic 3D FE modelling of peening residual stresses of strain-rate sensitive materials with oblique incident angles. In: M. Rossi et al. (eds.), Residual Stress, thermomechanics & infrared imaging, hybrid techniques and inverse problems, Vol. 8, p. 215-220, Conference Proceedings of the Society for Experimental Mechanics Series. The Society for Experimental Mechanics, Inc. 2014

[4]Fan Yang, Wei Yang*, Simulation of fracture of nanocrystalline metals, Advanced Materials Research, Vols. 33-37, p. 981-986, 2008

[5]Shaker A. Meguid*, Fan Yang, Zhuo Chen, M. Guagliano, 3D FE analysis of shot peening of strain-rate sensitive materials Accounting for Multiple and Repeated Impingement. 13th International Conference on Fracture, 2013, Beijing, P.R. China, 2013.06.16-06.21

[6]Xiangming Zhang, Nianke Ma, Fan Yang, Wei Yang*, Damage and fatigue of actuating heart muscles. Mechanics and Reliability of Actuating Materials, IUTAM symposium on Mechanics and Reliability of Actuating Materials, Beijing, P.R. China. August 2004

  

取得软件著作权

Software patents

[1]统计界面损伤比率的有限元后处理软件V1.0,杨帆、李哲、刘亚平,2017210日发证,软著登字第1623528

[2]统计模拟过程中体积去除量的有限元后处理软件V1.0,杨帆、李哲、刘亚平,2017210日发证,软著登字第1623944

[3]统计ABAQUS结果场变量沿指定方向分布的平均值和标准方差软件V1.0,杨帆,2016630日发证,软著登字第1340875

[4]分子动力学系统的分层均方位移和平均位移计算软件V1.0,杨帆、李哲,2016317日发证,软著登字第1235342

[5]指定线、面或体积区域灵活提取结果场变量的有限元后处理软件V1.0,杨帆、高玉魁、黄河,2016317日发证,软著登字第1234596

[6]统计指定表面粗糙度的有限元后处理软件V1.0,杨帆、高玉魁、黄河,2016316日发证,软著登字第1233965

[7]基于变形过程中能量守恒原理对LAMMPS源代码的修正软件V1.0,杨帆,2016630日发证,软著登字第1340878

[8]无定形态聚苯乙烯高分子模拟构型生成软件V1.0,杨帆,2016630日发证,软著登字第1340880


上海市杨浦区彰武路100号 同济大学航空航天与力学学院