陈成


的个人主页 http://teacher.nwpu.edu.cn/9A09308B99FA0A0FE053650A280A70C2

  被浏览次数:3215

基本信息 The basic information

陈成

航空学院

博士研究生毕业

哲学博士

副教授

力学-固体力学,材料科学与工程-材料学

cheng.chen@mail.mcgill.ca

教育经历 Education Experience

         2018-2019


麦吉尔大学

博士后

材料工程


 2013-2018


麦吉尔大学

工学博士

材料工程


 2010-2013


西北工业大学

工学硕士

材料学


 2006-2010


湖北工业大学

工学学士

材料工程



招生信息 Admission Information

招收固体力学方向硕士研究生,欢迎咨询。

科学研究 Scientific Research

  1. 极端条件下材料的力学行为

  2. 微纳米力学与晶态微结构形变机理研究

  3. 3D打印点阵结构及轻量化设计

学术成果 Academic Achievements

  • Comprehensive Study of Vacancy Frank Loop Unfaulting: Atomistic Simulations and Predictive Model,  Cheng Chen*, J Zhang, J Song*, Acta Materialia (2021)

  • Negative poisson's ratio in graphene miura origami, F Meng, S Chen, W Zhang, P Ou, J Zhang, Cheng Chen*, J SongMechanics of Materials (2020)

  • Atomistic simulations of vibration and damping in three-dimensional graphene honeycomb nanomechanical resonators, B Li, Y Wei, F Meng, P Ou, Y Chen, L Che, Cheng Chen*, J Song, Superlattices and Microstructures (2020)

  • Vacancy-assisted core transformation and mobility modulation of a-type edge dislocations in wurtzite GaN, Cheng Chen, F Meng, P Ou, J Song*, J. Phys. D: Appl. Phys. 52 495301

  • Effect of indium doping on motions of a-prismatic edge dislocations in wurtzite gallium nitride, Cheng Chen,F Meng, P Ou, J Song*, J. Phys.: Condens. Matter. 31 315701.

  • Effects of material heterogeneity on self-rolling of strain engineered membranes. Cheng Chen, P Song, F Meng, P Ou, X Liu, J Song*, Extreme Mechanics Letters 29 (2019) 100451.

  • Predictive modeling of misfit dislocation induced strain relaxation effect on self-rolling of strain-engineered nanomembranes, Applied Physics Letters 113, 112104 (2018) Cheng Chen, P Song, F Meng, P Ou, X Liu, J Song*

  • Effect of Topological Patterning on Self-Rolling of Nanomembranes, Nanotechnology 29 (2018), 345301, Cheng Chen, P Song, F Meng, P Ou, X Liu, J Song*

  • Quantitative analysis and predictive engineering of self-rolling of nanomembranes under anisotropic mismatch strain, Nanotechnology 28 (48), 485302. Cheng Chen, P Song, F Meng, X Li, X Liu, J Song* 

  • Effects of Mg and Al Doping on Dislocation Slips on GaN, Journal of Applied Physics, 119, 064302:1-8, Cheng Chen, F. Meng, and J. Song*

  • Core Structures Analysis of (a+c)-Edge Dislocations in Wurtzite GaN through Atomistic Simulations and Peierls-Nabarro Model, Journal of Applied Physics, 117, 194301:1-7. Cheng Chen, F. Meng, and J. Song*

  • Phase-field crystal modeling of shape transition of strained islands in heteroepitaxy, Sci China-Phys Mech Astron, Vol. 55 No. 11 (2012). Cheng Chen*, Z Chen, J Zhang, X Du.

  • Faceting transitions in crystal growth and heteroepitaxial growth in the anisotropic phase-field crystal model, Chinese Phys B, No. 11 (2012) 118103. Cheng Chen*, Z Chen, J Zhang, T Yang, X Du.  

  • Simulation of morphological evolution and crystallographic tilt in heteroepitaxial growth using phase-field crystal method". Acta Phys. Sin. 2012, 61(10): 108103. Cheng Chen*, Z Chen, J Zhang, T Yang.          

  • Conjugated π Electron Engineering of Generalized Stacking Fault in Graphene and h-BN, Nanotechnology 29 (2018), 09LT01. B Ouyang, Cheng Chen, J Song*

  • Deformation behaviors of three-dimensional graphene honeycombs under out-of-plane compression: Atomistic simulations and predictive modeling, Journal of the Mechanics and Physics of Solids 109, 241-251. F Meng, Cheng Chen, D Hu, J Song*

  • Lattice trapping and crack decohesion in graphene, Carbon 116, 33-39. F Meng, Cheng Chen, J Song*

  • Dislocation Shielding of a Nanocrack in Graphene: Atomistic Simulations and Continuum Modeling, The Journal of Physical Chemistry Letters, 6, 4038-4042. F. Meng, Cheng Chen, and J. Song*

  • Single Molybdenum Center Supported on N-Doped Black Phosphorus as an Efficient Electrocatalyst for Nitrogen Fixation, Pengfei Ou, Xiao Zhou, Fanchao Meng, Cheng Chen, Yiqing Chen, Jun Song*, Nanoscale, 2019, 11, 13600-13611

  • Reduction of Fermi level pinning at Cu–BP interfaces by atomic passivation, Pengfei Ou, Xiao Zhou,Cheng Chen, Fanchao Meng, Yiqing Chen, Jun Song*, Nanoscale, 2019, 11, 11569-11576