| A weakly compressible SPH method based on a low-dissipation Riemann solver C Zhang, XY Hu, NA Adams Journal of Computational Physics 335, 605-620, 2017 | 201 | 2017 |
| A multi-resolution SPH method for fluid-structure interactions C Zhang, M Rezavand, X Hu Journal of Computational Physics 429, 110028, 2021 | 162 | 2021 |
| SPHinXsys: An open-source multi-physics and multi-resolution library based on smoothed particle hydrodynamics C Zhang, M Rezavand, Y Zhu, Y Yu, D Wu, W Zhang, J Wang, X Hu Computer Physics Communications 267, 108066, 2021 | 125 | 2021 |
| A generalized transport-velocity formulation for smoothed particle hydrodynamics C Zhang, XY Hu, NA Adams Journal of Computational Physics 337, 216-232, 2017 | 121 | 2017 |
| A weakly compressible SPH method for violent multi-phase flows with high density ratio M Rezavand, C Zhang, X Hu Journal of Computational Physics 402, 109092, 2020 | 100 | 2020 |
| Smoothed particle hydrodynamics: Methodology development and recent achievement C Zhang, Y Zhu, D Wu, NA Adams, X Hu Journal of Hydrodynamics 34 (5), 767-805, 2022 | 75* | 2022 |
| A CAD-compatible body-fitted particle generator for arbitrarily complex geometry and its application to wave-structure interaction Y Zhu, C Zhang, Y Yu, X Hu Journal of Hydrodynamics 33 (2), 195-206, 2021 | 60 | 2021 |
| An integrative smoothed particle hydrodynamics method for modeling cardiac function C Zhang, J Wang, M Rezavand, D Wu, X Hu Computer Methods in Applied Mechanics and Engineering 381, 113847, 2021 | 58 | 2021 |
| Dual-criteria time stepping for weakly compressible smoothed particle hydrodynamics C Zhang, M Rezavand, X Hu Journal of Computational Physics 404, 109135, 2020 | 56 | 2020 |
| A weakly compressible SPH method with WENO reconstruction C Zhang, GM Xiang, B Wang, XY Hu, NA Adams Journal of Computational Physics 392, 1-18, 2019 | 55 | 2019 |
| Particle-based simulation of cold spray: Influence of oxide layer on impact process AA Hemeda, C Zhang, XY Hu, D Fukuda, D Cote, IM Nault, A Nardi, ... Additive Manufacturing 37, 101517, 2021 | 52 | 2021 |
| SPHinXsys: An open-source meshless, multi-resolution and multi-physics library C Zhang, M Rezavand, Y Zhu, Y Yu, D Wu, W Zhang, S Zhang, J Wang, ... Software Impacts 6, 100033, 2020 | 48 | 2020 |
| An artificial damping method for total Lagrangian SPH method with application in biomechanics C Zhang, Y Zhu, Y Yu, D Wu, M Rezavand, S Shao, X Hu Engineering Analysis with Boundary Elements 143, 1-13, 2022 | 43* | 2022 |
| An efficient fully Lagrangian solver for modeling wave interaction with oscillating wave surge converter C Zhang, Y Wei, F Dias, X Hu Ocean Engineering 236, 109540, 2021 | 42 | 2021 |
| An efficient and generalized solid boundary condition for SPH: applications to multi-phase flow and fluid–structure interaction C Zhang, Y Zhu, X Lyu, X Hu European Journal of Mechanics-B/Fluids 94, 276-292, 2022 | 34 | 2022 |
| An essentially non-hourglass formulation for total Lagrangian smoothed particle hydrodynamics D Wu, C Zhang, X Tang, X Hu Computer Methods in Applied Mechanics and Engineering 407, 115915, 2023 | 23 | 2023 |
| Comparative study of SPH and MPS methods for numerical simulations of dam breaking problems C Zhang, YX Zhang, DC Wan Chinese Journal of Hydrodynamics 26 (6), 736-746, 2011 | 23 | 2011 |
| Level-set based pre-processing techniques for particle methods Y Yu, Y Zhu, C Zhang, OJ Haidn, X Hu Computer Physics Communications 289, 108744, 2023 | 20 | 2023 |
| SPH 方法和 MPS 方法模拟溃坝问题的比较分析 张驰, 张雨新, 万德成 水动力学研究与进展 A 辑 26 (6), 736-746, 2011 | 19 | 2011 |
| Generalized and efficient wall boundary condition treatment in GPU-accelerated smoothed particle hydrodynamics M Rezavand, C Zhang, X Hu Computer Physics Communications 281, 108507, 2022 | 18 | 2022 |
Xiangyu Hu (胡湘渝)Techincal University of MunichVerified email at tum.de