STAFF PROFILE
Dr Jianhu Shen
Position:
Lecturer
College / Portfolio:
STEM College
School / Department:
STEM|School of Engineering
Phone:
+61399250981
Email:
jianhu.shen@rmit.edu.au
Campus:
City Campus
Contact me about:
Research supervision
- Zhao, M.,Li, J.,Xie, Y.,Shen, J. (2023). Semi-empirical synergetic analysis of the shear capacity of steel fibre reinforced concrete slender beams of rectangular-sections without stirrups In: Engineering Structures, 285, 1 - 13
- Nabaki, K.,Shen, J.,Huang, X. (2023). Effect of different fatigue constraints on optimal topology of structures with minimum weight In: Engineering Structures, 288, 1 - 15
- Li, H.,Wang, C.,Li, J.,Shen, J.,Zhou, S. (2023). A Mini Review on Fluid Topology Optimization In: Materials, 16, 1 - 16
- Shi, J.,Yang, L.,Shen, J.,Cai, K. (2021). Nonlinear vibration of a buckled/damaged BNC nanobeam transversally impacted by a high-speed C60 In: Scientific Reports, 11, 1 - 14
- Shi, J.,Hu, C.,Shen, J.,Cai, K.,Wang, J. (2020). Mechanical properties of bonded few-layered graphene via uniaxial test: A molecular dynamics simulation study In: Computational Materials Science, 172, 1 - 9
- Jiao, S.,Zheng, C.,Jinbao, W.,Shen, J.,Cai, K. (2020). Stable rotation transmission of a CNT-based nanogear drive system with intersecting axes at low temperature In: Surface Science, 693, 1 - 7
- Song, B.,Shi, J.,Wang, J.,Shen, J.,Cai, K. (2020). Ideal Oscillation of a Hydrogenated Deformable Rotor in a Gigahertz Rotation-Translation Nanoconverter at Low Temperatures In: Sensors, 20, 1 - 16
- Nabaki, K.,Shen, J. (2019). Evolutionary topology optimization of continuum structures considering fatigue failure In: Materials & Design, 166, 1 - 36
- Wu, P.,Shi, J.,Wang, J.,Shen, J.,Cai, K. (2019). Critical output torque of a GHz CNT-based rotation transmission system via axial interface friction at low temperature In: International Journal of Molecular Sciences, 20, 1 - 12
- REN, X.,Shen, J.,Tran, J.,Ngo, T.,Xie, M. (2018). Auxetic nail: Design and experimental study In: Composite Structures, 184, 288 - 298
Note: Supervision projects since 2004
2 PhD Current Supervisions4 PhD Completions and 1 Masters by Research Completions
Design of innovative and efficient structures, Response of structures under impact/blast loadings, Numverical simulations, Microstructural design of materials, Auxetic structures and materials
- Development of eco-friendly low-carbon pavements using waste materials and a green binder. Funded by: Grey Vort Pty Ltd - Scholarship from (2023 to 2026)