A 3D distinct lattice spring model for elasticity and dynamic failure GF Zhao, J Fang, J Zhao International Journal for Numerical and Analytical Methods in Geomechanics …, 2011 | 235 | 2011 |

Improved SPH methods for simulating free surface flows of viscous fluids J Fang, A Parriaux, M Rentschler, C Ancey Applied Numerical Mathematics 59 (2), 251-271, 2009 | 172 | 2009 |

A numerical study of the SPH method for simulating transient viscoelastic free surface flows J Fang, RG Owens, L Tacher, A Parriaux Journal of non-newtonian fluid mechanics 139 (1-2), 68-84, 2006 | 153 | 2006 |

A thermodynamically admissible reptation model for fast flows of entangled polymers. II. Model predictions for shear and extensional flows J Fang, M Kröger, HC Öttinger Journal of Rheology 44 (6), 1293-1317, 2000 | 137 | 2000 |

Spatial characteristics of roughness sublayer mean flow and turbulence over a realistic urban surface MG Giometto, A Christen, C Meneveau, J Fang, M Krafczyk, MB Parlange Boundary-layer meteorology 160 (3), 425-452, 2016 | 85 | 2016 |

A non-homogeneous constitutive model for human blood. Part 1. Model derivation and steady flow M Moyers-Gonzalez, RG Owens, J Fang Journal of Fluid Mechanics 617, 327-354, 2008 | 77 | 2008 |

Flow over hills: a large-eddy simulation of the Bolund case M Diebold, C Higgins, J Fang, A Bechmann, MB Parlange Boundary-layer meteorology 148 (1), 177-194, 2013 | 75 | 2013 |

Large-eddy simulation of very-large-scale motions in the neutrally stratified atmospheric boundary layer J Fang, F Porté-Agel Boundary-Layer Meteorology 155 (3), 397-416, 2015 | 57 | 2015 |

Development of micro-macro continuum-discontinuum coupled numerical method G Zhao EPFL, 2010 | 54 | 2010 |

A non-homogeneous constitutive model for human blood: Part III. Oscillatory flow MA Moyers-Gonzalez, RG Owens, J Fang Journal of non-newtonian fluid mechanics 155 (3), 161-173, 2008 | 52 | 2008 |

Fokker–Planck simulations of fast flows of melts and concentrated polymer solutions in complex geometries A Lozinski, C Chauvičre, J Fang, RG Owens Journal of Rheology 47 (2), 535-561, 2003 | 50 | 2003 |

A regularized Lagrangian finite point method for the simulation of incompressible viscous flows J Fang, A Parriaux Journal of Computational physics 227 (20), 8894-8908, 2008 | 48 | 2008 |

Numerical simulations of pulsatile blood flow using a new constitutive model J Fang, RG Owens Biorheology 43 (5), 637-660, 2006 | 46 | 2006 |

Parallelization of the distinct lattice spring model GF Zhao, J Fang, L Sun, J Zhao International Journal for Numerical and Analytical Methods in Geomechanics …, 2013 | 32 | 2013 |

Towards oscillation-free implementation of the immersed boundary method with spectral-like methods J Fang, M Diebold, C Higgins, MB Parlange Journal of Computational Physics 230 (22), 8179-8191, 2011 | 29 | 2011 |

A Fokker–Planck-based numerical method for modelling non-homogeneous flows of dilute polymeric solutions A Lozinski, RG Owens, J Fang Journal of non-newtonian fluid mechanics 122 (1-3), 273-286, 2004 | 28 | 2004 |

On the truly meshless solution of heat conduction problems in heterogeneous media J Fang, GF Zhao, J Zhao, A Parriaux Numerical Heat Transfer, Part B: Fundamentals 55 (1), 1-13, 2009 | 27 | 2009 |

A coupled distinct lattice spring model for rock failure under dynamic loads GF Zhao, N Khalili, J Fang, J Zhao Computers and Geotechnics 42, 1-20, 2012 | 25 | 2012 |

An efficient and accurate algorithm for generating spatially‐correlated random fields J Fang, L Tacher Communications in numerical methods in engineering 19 (10), 801-808, 2003 | 23 | 2003 |

A MLS-based lattice spring model for simulating elasticity of materials GF Zhao, J Fang, J Zhao International Journal of Computational Methods 9 (03), 1250037, 2012 | 19 | 2012 |