@article{Zhou2025b,title={Nonlinear viscoelasticity of incompressible isotropic solids},author={Zhou, J. L. and Yao, Q. H. and Yang, G. C.},journal={International Journal of Mechanical Sciences},volume={296},pages={110330},year={2025},doi={10.1016/j.ijmecsci.2025.110330},}
MSEA
Predicting delayed stability of metals at constant high temperatures
@article{Zhou2025a,title={Predicting delayed stability of metals at constant high temperatures},author={Zhou, J. L. and Peng, B. and Yao, Q. H. and Yang, G. C.},journal={Materials Science and Engineering: A},volume={931},pages={148163},year={2025},doi={10.1016/j.msea.2025.148163},}
2024
NPL
A neural network-based Poisson solver for fluid simulation
Z. C. Jiang, Z. L. Wang, Q. H. Yao, G. C. Yang, and 2 more authors
@article{Jiang2024,title={A neural network-based Poisson solver for fluid simulation},author={Jiang, Z. C. and Wang, Z. L. and Yao, Q. H. and Yang, G. C. and Y., Zhang and Y., Jiang J.},journal={Neural Processing Letters},volume={56},number={5},pages={233},year={2024},doi={10.1007/s11063-024-11620-1},}
EPSL
Enhanced mobility of granular avalanches with fractal particle size distributions: Insights from discrete element analyses
A. N. Shi, G. C. Yang, C. Y. Kwok, and M. J. Jiang
@article{Shi2024,title={Enhanced mobility of granular avalanches with fractal particle size distributions: Insights from discrete element analyses},author={Shi, A. N. and Yang, G. C. and Kwok, C. Y. and Jiang, M. J.},journal={Earth and Planetary Science Letters},volume={642},pages={118835},year={2024},doi={10.1016/j.epsl.2024.118835},note={Nature Index Journal}}
Discrete element modeling of rock-filled gabions under successive boulder impacts
G. C. Yang, F. Qiao, Y. Lu, Q. H. Yao, and 1 more author
@article{Yang2024a,title={Discrete element modeling of rock-filled gabions under successive boulder impacts},author={Yang, G. C. and Qiao, F. and Lu, Y. and Yao, Q. H. and Kwok, C. Y.},journal={Computers and Geotechnics},volume={167},pages={106092},year={2024},doi={10.1016/j.compgeo.2024.106092},}
A moving least square immersed boundary method for SPH with thin-walled rigid structures
Z. L. Wang, Z. C. Jiang, Y. Zhang, G. C. Yang, and 3 more authors
@article{Wang2024,title={A moving least square immersed boundary method for SPH with thin-walled rigid structures},author={Wang, Z. L. and Jiang, Z. C. and Zhang, Y. and Yang, G. C. and Kwan, T. H. and Chen, Y. H. and Yao, Q. H.},journal={Computational Particle Mechanics},year={2024},doi={10.1007/s40571-024-00721-2},}
2023
JCP
Efficient lattice Boltzmann simulation of free-surface granular flows with μ(I)-rheology
G. C. Yang, S. C. Yang, L. Jing, C. Y. Kwok, and 1 more author
@article{Yang2023a,title={Efficient lattice Boltzmann simulation of free-surface granular flows with $\mu$(I)-rheology},author={Yang, G. C. and Yang, S. C. and Jing, L. and Kwok, C. Y. and Sobral, Y. D.},journal={Journal of Computational Physics},volume={479},pages={111956},year={2023},doi={10.1016/j.jcp.2023.111956},}
JFM
Frictional boundary condition for lattice Boltzmann modelling of dense granular flows
G. C. Yang, Y. J. Huang, Y. Lu, C. Y. Kwok, and 2 more authors
@article{Yang2023b,title={Frictional boundary condition for lattice Boltzmann modelling of dense granular flows},author={Yang, G. C. and Huang, Y. J. and Lu, Y. and Kwok, C. Y. and Sobral, Y. D. and Yao, Q. H.},journal={Journal of Fluid Mechanics},volume={973},pages={A21},year={2023},doi={10.1017/jfm.2023.782},}
SR
A neural network-based PDE solving algorithm with high precision
Z. C. Jiang, J. Y. Jiang, Q. H. Yao, and G. C. Yang
@article{Yang2023c,title={A neural network-based PDE solving algorithm with high precision},author={Jiang, Z. C. and Jiang, J. Y. and Yao, Q. H. and Yang, G. C.},journal={Scientific Reports},volume={13},number={1},pages={4479},year={2023},doi={10.1038/s41598-023-31236-0},}
2021
PRF
Size effects in underwater granular collapses: Experiments and coupled lattice Boltzmann and discrete element method simulations
@article{Yang2021,title={Size effects in underwater granular collapses: Experiments and coupled lattice Boltzmann and discrete element method simulations},author={Yang, G. C. and Jing, L. and Kwok, C. Y. and Sobral, Y. D.},journal={Physical Review Fluids},volume={6},number={11},pages={114302},year={2021},doi={10.1103/PhysRevFluids.6.114302},}
CMA
A compressed lattice Boltzmann method based on ConvLSTM and ResNet
X. Y. Chen, G. C. Yang, Q. H. Yao, Z. S. Nie, and 1 more author
@article{Chen2021,title={A compressed lattice Boltzmann method based on ConvLSTM and ResNet},author={Chen, X. Y. and Yang, G. C. and Yao, Q. H. and Nie, Z. S. and Jiang, Z. C.},journal={Computers & Mathematics with Applications},volume={97},pages={162-174},year={2021},doi={10.1016/j.camwa.2021.06.003},}
2020
JGR
Pore-scale simulation of immersed granular collapse: Implications to submarine landslides
G. C. Yang, L. Jing, C. Y. Kwok, and Y. D. Sobral
Journal of Geophysical Research: Earth Surface, 2020
@article{Yang2020,title={Pore-scale simulation of immersed granular collapse: Implications to submarine landslides},author={Yang, G. C. and Jing, L. and Kwok, C. Y. and Sobral, Y. D.},journal={Journal of Geophysical Research: Earth Surface},volume={125},number={1},pages={e2019JF005044},year={2020},doi={10.1029/2019jf005044},}
2019
CG
A comprehensive parametric study of LBM-DEM for immersed granular flows
@article{Yang2019,title={A comprehensive parametric study of LBM-DEM for immersed granular flows},author={Yang, G. C. and Jing, L. and Kwok, C. Y. and Sobral, Y. D.},journal={Computers and Geotechnics},volume={114},pages={103100},year={2019},doi={10.1016/j.compgeo.2019.103100},}
PT
Flow regimes and dynamic similarity of immersed granular collapse: A CFD-DEM investigation
@article{Jing2019,title={Flow regimes and dynamic similarity of immersed granular collapse: A CFD-DEM investigation},author={Jing, L. and Yang, G. C. and Kwok, C. Y. and Sobral, Y. D.},journal={Powder Technology},volume={345},pages={532-543},year={2019},doi={10.1016/j.powtec.2019.01.029},}
2018
AMM
The effects of bed form roughness on total suspended load via the Lattice Boltzmann Method
@article{Yang2018,title={The effects of bed form roughness on total suspended load via the Lattice Boltzmann Method},author={Yang, G. C. and Kwok, C. Y. and Sobral, Y. D.},journal={Applied Mathematical Modelling},volume={63},pages={591-610},year={2018},doi={10.1016/j.apm.2018.07.011},}
PRE
Dynamics and scaling laws of underwater granular collapse with varying aspect ratios
@article{Jing2018,title={Dynamics and scaling laws of underwater granular collapse with varying aspect ratios},author={Jing, L. and Yang, G. C. and Kwok, C. Y. and Sobral, Y. D.},journal={Physical Review E},volume={98},number={4},pages={042901},year={2018},doi={10.1103/PhysRevE.98.042901},}
