11. A multiscale multi-permeability poroplasticity model linked by recursive homogenizations and deep learning Wang, Kun; Sun, WaiChing 2018 Articles Materials scienceMaterials--Mathematical modelsMachine learning--Mathematical model
12. A multiscale overlapped coupling formulation for large-deformation strain localization Sun, WaiChing; Mota, Alejandr 2014 Articles Civil engineeringMechanical engineering
13. An immersed phase field fracture model for microporomechanics with Darcy–Stokes flow Suh, Hyoung Suk; Sun, WaiChing 2021 Articles Laminar flowFluid dynamicsFracture mechanics--Mathematical modelsNavier-Stokes equationsPhase transformations (Statistical physics)Porous materials
14. Anisotropy of a Tensorial Bishop’s Coefficient for Wetted Granular Materials Wang, Kun; Sun, WaiChing 2015 Articles Materials scienceGeophysicsPhysics
15. A nonlocal multiscale discrete-continuum model for predicting mechanical behavior of granular materials Liu, Yang; Sun, WaiChing; Yuan, Zifeng; Fish, Jacob 2015 Articles Granular materialsGranular materials--Mathematical modelsStrains and stressesAnisotropySoil mechanicsSoil mechanics--Mathematical modelsMultiscale modelingMaterials scienceCivil engineering
16. An open-source FEniCS implementation of a phase field fracture model for micropolar continua Suh, Hyoung Suk; Sun, WaiChing 2019 Articles EngineeringMicropolar elasticityFracture mechanics--Computer programsOpen source software
17. An updated Lagrangian LBM–DEM–FEM coupling model for dual-permeability fissured porous media with embedded discontinuities Wang, Kun; Sun, WaiChing 2019 Articles Civil engineeringMachine learningMechanics--Computer simulationFluid mechanicsPorous materialsPermeability
18. A phase field framework for capillary-induced fracture in unsaturated porous media: Drying-induced vs. hydraulic cracking Heider, Yousef; Sun, WaiChing 2019 Articles Materials sciencePorous materials--Mathematical modelsFracture mechanicsHydraulic fracturing
19. A semi-implicit discrete-continuum coupling method for porous media based on the effective stress principle at finite strain Wang, Kun; Sun, WaiChing 2016 Articles Micromechanics--Mathematical modelsMaterials--Mechanical properties--Mathematical modelsPorous materials--Mechanical propertiesCivil engineering
20. A stabilized assumed deformation gradient finite element formulation for strongly coupled poromechanical simulations at finite strain Sun, WaiChing; Ostien, Jakob T.; Salinger, Andrew G. 2013 Articles Engineering geologyGeophysics