Postdoctor

Zhiwei Zhang

Name:Zhiwei Zhang
Date of Birth:Mar. 22, 1994
Nationality:China
Institution:College of Civil Engineering and Mechanics, Lanzhou University
Address:222 Tinashe Road, Lanzhou 730000, China
Tel:
Fax:
Email:zhangzhiwei@lzu.edu.cn
Education
Sep. 2019 — Jun. 2022, Ph.D. in Solids Mechanics, Institute of Mechanics, Chinese Academy of Science
Sep. 2016 — Jun. 2019, M.S. in Mechanics, Beijing University of Technology
Sep. 2012 — Jun. 2016, B.S. In Engineering Mechanics, Wuhan University of Science and Technology
Appointments
Aug. 2022 — Present, Postdoctoral Researcher, College of Civil Engineering and Mechanics, Lanzhou University, Lanzhou, China
Research Areas
Electromagnetic solid mechanics, Physical mechanics, Micro-nano mechanics
Visiting Positions
Members and Activities
Awards
Jun. 2022, The Special Prize of President Scholarship for Postgraduate Students, CAS
Apr. 2022, First Prize of Guo Yong-Huai Scholarship, Institute of Mechanics, CAS
Nov. 2021, National Scholarship for Postgraduate Students
Jan. 2021, Outstanding Paper Award of the 27th Annual Meeting of “Beijing Society of Theoretical and Applied Mechanics”
Jun. 2019, Outstanding Master Graduates of Beijing
Jun. 2019, Outstanding Master Graduates of Beijing University of Technology
Main Courses
Research Grants

1, Jan. 2016 — Dec. 2018, Study on the measurement of residual stress and mechanical properties of damaged layer in thinned silicon wafer, NSFC, Co.

2, Jan. 2018 — Dec. 2021, Adopting nanoscale stacking faults to exceed strength of single crystals, NSFC, Co.

Refereed Publications
  1. Z.W. Zhang, W. Cai, Y.H. Feng, G.H. Duan, J. Wang, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu*, “Dislocation reactions dominated pop-in events in nanoindentation of Ni-based single crystal superalloys”, Materials Characterization, 200 (2023), 112883.
  2. R.H. Shi*, Y.C. Wu, F. Shuang, Z.W. Zhang, Dipolar and quadrupolar characteristics of shear transformation in two dimensional metallic glasses, Materials Today Communications, 34 (2023) 105389.
  3. Z.W. Zhang, W. Cai, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu*, “Theoretical model for yield strength of monocrystalline Ni3Al by simultaneously considering the size and strain rate”, Transactions of Nonferrous Metals Society of China, 33 (2023), in press.
  4. Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Simultaneously achieving strength and ductility in Ni3Al nanowires with superlattice intrinsic stacking faults”, International Journal of Mechanical Sciences, 215 (2022), 106953
  5. Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Interaction between the edge dislocation dipole pair and interfacial misfit dislocation network in Ni-based single crystal superalloys”, International Journal of Solids and Structures, 228 (2021) 111128.
  6. Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Atomistic modeling for the extremely low and high temperature-dependent yield strength in a Ni-based single crystal superalloy”, Materials Today Communications, 27 (2021) 102451.
  7. Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Interaction between butterfly-like prismatic dislocation loop pairs and planar defects”, Physical Chemistry Chemical Physics, 23 (2021) 10377–10383
  8.  Z.W. Zhang, Q. Fu, J. Wang*, P. Xiao, F.J. Ke and C. Lu, “Hardening Ni3Al via complex stacking faults and twinning boundary”, Computational Materials Science, 188 (2021), 110201.
  9. T Wei, Z.H. Zhang, Z.M. Wang, Q. Zhang, Y.S. Ye, J.H. Lu, Z.U. Rahman, Z.W. Zhang, “Ultrathin solid composite electrolyte based on Li6.4La3Zr1.4Ta0. 6O12/PVDF-HFP/LiTFSI/succinonitrile for high-performance solid-state lithium metal batteries”, ACS Applied Energy Materials, 3 (2020), 9428–9435.
  10. P. Chen*, Z.W. Zhang, C.S. Liu, T. An, H.P. Yu, F. Qin, “Temperature and grain size dependences of mechanical properties of nanocrystalline copper by molecular dynamics simulation”, Modelling and Simulation in Materials Science and Engineering, 27 (2019), 065012.
  11. P. Chen*, Z.W. Zhang, T. An, H.P. Yu, F. Qin, “Generation and distribution of residual stress during nano-grinding of monocrystalline silicon”, Japanese Journal of Applied Physics, 57 (2018), 121302.
  12. Z.W. Zhang, P. Chen*, T. An, H.P. Yu, F. Qin, “Mechanical properties of silicon in subsurface damage layer from nano-grinding studied by atomistic simulation”, AIP Advances, 8 (2018), 055223.