Journal
[20] Enhancing the fracture resistance of 3D printed Zirconia via gyroid structures
D. Lim, V. Parashivamurthy, J.H. Lee, X. Zhao, A. Kaul, S. Gheytani, and G. X. Gu
Scripta Materialia 268 (2025): 116888.
[19] Sea sponge-inspired designs enhance mechanical properties of tubular lattices
A. Chen, U. Ezimora, S. Lee, J.H. Lee, and G.X. Gu
International Journal of Mechanical Sciences 285 (2025): 109815.
[18] Stimuli-responsive shell theory
J.H. Lee, H.S. Park, D.P. Holmes
Mathematics and Mechanics of Solids 29.6 (2024): 1089-1124.
[17] Weak-formulated physics-informed modeling and optimization for heterogeneous digital materials
Z. Zhang, J.H. Lee, L. Sun, and G.X. Gu
PNAS nexus 3.5 (2024): pgae186.
[16] Mechanical metamaterials as broadband electromagnetic wave absorbers: investigating relationships between geometrical parameters and electromagnetic response
D.D. Lim, S. Lee, J.H. Lee, W. Choi, and G.X. Gu
Materials Horizons 11.10 (2024): 2506-2516.
[15] Dynamic homogenization of heterogeneous piezoelectric media: a polarization approach using infinite-body green’s function
J.H. Lee, Z. Zhang, and G.X. Gu
Journal of the Mechanics and Physics of Solids 181 (2023): 105442.
[14] Machine learning and experiments: A synergy for the development of functional materials
B. Zheng, Z. Jin, G. Hu, J. Gu, S.Y. Yu, J.H. Lee, and G.X. Gu
MRS Bulletin 48.2 (2023): 142-152.
[13] Maximum electro-momentum coupling in piezoelectric metamaterial scatterers
J.H. Lee, Z. Zhang, and G.X. Gu
Journal of Applied Physics 132.12 (2022). Editor’s pick
Featured on Berkeley Engineering News: https://engineering.berkeley.edu/news/2022/11/under-the-radar/
[12] Rational design of piezoelectric metamaterials with tailored electro-momentum coupling
Z. Zhang, J.H. Lee, and G.X. Gu
Extreme Mechanics Letters 55 (2022): 101785.
[11] Efficient snap-through of spherical caps by applying a localized curvature stimulus
L. Stein-Montalvo, J.H. Lee, Y. Yang, M. Landesberg, H.S. Park, and D.P. Holmes
The European Physical Journal E 45.1 (2022): 3.
[10] Elastic instabilities govern the morphogenesis of the optic cup
J.H. Lee, H.S. Park, and D.P. Holmes
Physical Review Letters 127.13 (2021): 138102.
[9] Nonlinear buckling behavior of a complete spherical shell under uniform external pressure and homogenous natural curvature
D.P. Holmes, J.H. Lee, H.S. Park, and M. Pezzulla
Physical Review E 102.2 (2020): 023003.
[8] Constitutive-damage modeling and computational implementation for simulation of elasto-viscoplastic-damage behavior of polymeric foams over a wide range of strain rates and temperatures
J.H. Lee, D.M. Ryu, and C.S. Lee
International Journal of Plasticity 130 (2020): 102712.
[7] Unified constitutive model with consideration for effects of porosity and its application to polyurethane foam
J.H. Lee, S.K. Kim, S. Park, K.H. Park, and J.M. Lee
Composites Part B: Engineering 138 (2018): 87-100.
[6] Non-linear tensile behavior of high manganese steel based on elasto-plastic damage model
J.H. Kim, J.H. Lee, S.K. Kim, M.S. Chun, and J.M. Lee
Journal of Advanced Marine Engineering and Technology 41.3 (2017): 222-229.
[5] Application of Gurson Model for Evaluation of Density‐Dependent Mechanical Behavior of Polyurethane Foam: Comparative Study on Explicit and Implicit Method
J.H. Lee, S.K. Kim, S.B. Park, C.S. Bang, and J.M. Lee
Macromolecular Materials and Engineering 301.6 (2016): 694-706.
[4] A study of thermo-structural analysis and fatigue analysis for independent type-B LNG fuel tank
T.W. Kim, J.M. Kim, J.H. Kim, J.H. Lee, S.B. Park, S.M. Lee, and J.M. Lee
Journal of the Society of Naval Architects of Korea 53.5 (2016): 410-419.
[3] Temperature-dependent viscoplastic-damage constitutive model for nonlinear compressive behavior of polyurethane foam
J.H. Lee, S.K. Kim, and J.M. Lee
Journal of the Computational Structural Engineering Institute of Korea 29.5 (2016): 437-445.
[2] Comparative study on mechanical behavior after deformation recovery of polymeric foam for ships and offshore structures
S.K. Kim, J.H. Kim, J.H. Lee, S.B. Park, and J.M. Lee
Journal of the Society of Naval Architects of Korea 53.3 (2016): 195-200.
[1] Modified gurson model to describe non-linear compressive behaviour of polyurethane foam with considering density effect
J.H. Lee, S.B. Park, S.K. Kim, C.S. Bang, and J.M. Lee
Journal of the Computational Structural Engineering Institute of Korea 28.5 (2015): 543-551.