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Zirui Mao
Zirui Mao
Pacific Northwest National Laboratory | TAMU | University of Cincinnati
Verified email at mail.uc.edu - Homepage
Title
Cited by
Cited by
Year
A comprehensive study on the parameters setting in smoothed particle hydrodynamics (SPH) method applied to hydrodynamics problems
Z Mao, GR Liu, X Dong
Computers and Geotechnics 92, 77-95, 2017
752017
A Lagrangian gradient smoothing method for solid‐flow problems using simplicial mesh
Z Mao, GR Liu
International journal for numerical methods in engineering 113 (5), 858-890, 2018
402018
A conservative and consistent Lagrangian gradient smoothing method for earthquake-induced landslide simulation
Z Mao, GR Liu, Y Huang, Y Bao
Engineering Geology, 2019
302019
A local Lagrangian gradient smoothing method for fluids and fluid-like solids: A novel particle-like method
Z Mao, GR Liu, Y Huang
Engineering Analysis with Boundary Elements 107, 96-114, 2019
192019
A smoothed particle hydrodynamics model for electrostatic transport of charged lunar dust on the moon surface
Z Mao, GR Liu
Computational Particle Mechanics 5, 539-551, 2018
162018
A conservative and consistent Lagrangian gradient smoothing method for simulating free surface flows in hydrodynamics
Z Mao, GR Liu, X Dong, T Lin
Computational Particle Mechanics, 2019
122019
A 3D Lagrangian gradient smoothing method framework with an adaptable gradient smoothing domain‐constructing algorithm for simulating large deformation free surface flows
Z Mao, GR Liu
International Journal for Numerical Methods in Engineering 121 (6), 1268-1296, 2020
112020
A development of a SPH model for simulating surface Erosion by impact (s) of irregularly shaped particles
X Dong, Z Li, Z Mao, T Lin
International Journal of Computational Methods 15 (08), 1850074, 2018
72018
An Efficient Finite Difference-based Implicit Solver for Phase-Field Equations with Spatially and Temporally Varying Parameters
Z Mao, GR Liu, MJ Demkowicz
https://doi.org/10.48550/arXiv.2401.12147, 2024
52024
Mobility inference of the Cahn–Hilliard equation from a model experiment
Z Mao, MJ Demkowicz
Journal of Material Research, 2021
42021
Volumetric lattice Boltzmann method for pore-scale mass diffusion-advection process in geopolymer porous structures
X Zhang, Z Mao, FW Hilty, Y Li, A Grandjean, R Montgomery, HC zur Loye, ...
Journal of Rock Mechanics and Geotechnical Engineering, 2024
32024
Theoretical Simulation of Electrostatic Levitation of Lunar Dust
Z Mao, B Di, J Zhang
Applied Mathematics and Mechanics 34 (4), 336-344, 2013
32013
A finite difference informed random walker (FDiRW) solver for strongly inhomogeneous diffusion problems
Z Mao, Y Li, R Montgomery, A Grandjean, HC zur Loye, S Hu
Computational Materials Science 246, 113474, 2025
22025
Phase field-volumetric lattice Boltzmann model of ion uptake in porous nuclear waste form materials under continuous flow
Z Mao, X Zhang, Y Li, V Proust, A Gossard, T David, R Montgomery, ...
Journal of Nuclear Materials 596, 155103, 2024
22024
A GPU accelerated mixed-precision Smoothed Particle Hydrodynamics framework with cell-based relative coordinates
Z Mao, X Li, S Hu, G Gopalakrishnan, A Li
Engineering Analysis with Boundary Elements 161, 113-125, 2024
22024
Gradient Smoothing Methods with Programming: Applications to Fluids and Landslides
G Liu, Z Mao
World Scientific, 2023
22023
A Finite Difference informed Random Walk solver for simulating radiation defect evolution in polycrystalline structures with strongly inhomogeneous diffusivity
Z Mao, Y Li, G Park, B Beeler, S Hu
Computational Materials Science 246, 113371, 2025
12025
A GPU accelerated mixed-precision Finite Difference informed Random Walker (FDiRW) solver for strongly inhomogeneous diffusion problems
Z Mao, S Hu, A Li
arXiv preprint arXiv:2408.11376, 2024
12024
SPH modeling for soil mechanics with application to landslides
GR Liu, Z Mao, Y Huang
Modeling in Geotechnical Engineering, 257-289, 2021
12021
Smoothed Particle Hydrodynamics Simulation of Liquid Drop Impinging Hypoelastic Surfaces
X Dong, Z Li, Z Mao, Y Liu
International Journal of Computational Methods 17 (05), 1940001, 2020
12020
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Articles 1–20