Fluid–structure interaction involving large deformations: 3D simulations and applications to biological systems FB Tian, H Dai, H Luo, JF Doyle, B Rousseau Journal of computational physics 258, 451-469, 2014 | 400 | 2014 |
An efficient immersed boundary-lattice Boltzmann method for the hydrodynamic interaction of elastic filaments FB Tian, H Luo, L Zhu, JC Liao, XY Lu Journal of computational physics 230 (19), 7266-7283, 2011 | 283 | 2011 |
Recent trends and progress in the immersed boundary method WX Huang, FB Tian Proceedings of the Institution of Mechanical Engineers, Part C: Journal of …, 2019 | 158 | 2019 |
Force production and asymmetric deformation of a flexible flapping wing in forward flight FB Tian, H Luo, J Song, XY Lu Journal of Fluids and Structures 36, 149-161, 2013 | 132 | 2013 |
An immersed boundary method for fluid–structure interaction with compressible multiphase flows L Wang, GMD Currao, F Han, AJ Neely, J Young, FB Tian Journal of Computational Physics 346, 131-151, 2017 | 105 | 2017 |
Review on bio-inspired flight systems and bionic aerodynamics J Han, Z Hui, F Tian, G Chen Chinese Journal of Aeronautics, 2020 | 94 | 2020 |
Coupling modes of three filaments in side-by-side arrangement FB Tian, H Luo, L Zhu, XY Lu Physics of Fluids 23 (11), 111903, 2011 | 94 | 2011 |
On numerical modeling of animal swimming and flight HB Deng, YQ Xu, DD Chen, H Dai, J Wu, FB Tian Computational Mechanics 52 (6), 1221-1242, 2013 | 91 | 2013 |
Secondary vortex street in the wake of two tandem circular cylinders at low Reynolds number S Wang, F Tian, L Jia, X Lu, X Yin Physical Review E 81 (3), 036305, 2010 | 91 | 2010 |
An immersed boundary-lattice Boltzmann method for fluid-structure interaction problems involving viscoelastic fluids and complex geometries J Ma, Z Wang, J Young, JCS Lai, Y Sui, FB Tian Journal of Computational Physics 415, 109487, 2020 | 86 | 2020 |
Simulation of a pulsatile non-Newtonian flow past a stenosed 2D artery with atherosclerosis FB Tian, L Zhu, PW Fok, XY Lu Computers in biology and medicine 43 (9), 1098-1113, 2013 | 85 | 2013 |
Interaction between a flexible filament and a downstream rigid body FB Tian, H Luo, L Zhu, XY Lu Physical Review E 82 (2), 026301, 2010 | 85 | 2010 |
A novel geometry-adaptive Cartesian grid based immersed boundary–lattice Boltzmann method for fluid–structure interactions at moderate and high Reynolds numbers L Xu, FB Tian, J Young, JCS Lai Journal of Computational Physics 375, 22-56, 2018 | 81 | 2018 |
Effects of wing shape, aspect ratio and deviation angle on aerodynamic performance of flapping wings in hover A Shahzad, FB Tian, J Young, JCS Lai Physics of Fluids 28 (11), 111901, 2016 | 79 | 2016 |
Improving power-extraction efficiency of a flapping plate: From passive deformation to active control FB Tian, J Young, JCS Lai Journal of Fluids and Structures 51, 384-392, 2014 | 79 | 2014 |
Numerical study on the power extraction performance of a flapping foil with a flexible tail J Wu, C Shu, N Zhao, FB Tian Physics of Fluids 27 (1), 013602, 2015 | 73 | 2015 |
An efficient red blood cell model in the frame of IB-LBM and its application YQ Xu, FB Tian, YL Deng International Journal of Biomathematics 6 (01), 1250061, 2013 | 62 | 2013 |
Effects of hawkmoth-like flexibility on the aerodynamic performance of flapping wings with different shapes and aspect ratios A Shahzad, FB Tian, J Young, JCS Lai Physics of Fluids 30 (9), 091902, 2018 | 60 | 2018 |
Effects of flexibility on the hovering performance of flapping wings with different shapes and aspect ratios A Shahzad, FB Tian, J Young, JCS Lai Journal of Fluids and Structures 81, 69-96, 2018 | 60 | 2018 |
A numerical study of fish adaption behaviors in complex environments with a deep reinforcement learning and immersed boundary-lattice Boltzmann method Y Zhu, FB Tian, J Young, JC Liao, JCS Lai Scientific Reports 11, 1691, 2021 | 58 | 2021 |