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个人简介
Steve WaiChing Sun’s research interests are in the mechanics and physics of geological and porous materials such as soil, rocks, concrete, and salt. His work mainly focuses on computational poromechanics and geomechanics for a wide spectrum of applications ranging from field scale applications such as geological storage of carbon dioxide, hydraulic fracture, geological disposal of nuclear waste, and vehicle-soil-water interaction to micro-scale simulations of the 3D printing processes and fragmentation and fracture of a single crystal grain.
Sun’s research group specializes in the creation, derivation, implementation, verification, and validation of theoretical and computational models for engineering applications. His research group acts as a bridge among mathematical science, theoretical mechanics, and engineering industry. The research group’s representative works include, but are not limited to the development of solution techniques for predicting brittle-ductile transition of porous media, coupled deformation-diffusion in non-isothermal saturated and unsaturated porous media, formulations of stabilized mixed-field finite element model for large deformation multiphysics problems, modeling and homogenization of mechanical and hydraulic properties of porous media from CT images, digital rock and granular physics, modeling freezing and thawing of geological materials under the changing climate, and interdisciplinary innovation in mathematics concepts and ideas, such as graph theory, Lie algebra, and a data-driven and machine learning approach for computational mechanics and geophysics problems.
Sun’s research group specializes in the creation, derivation, implementation, verification, and validation of theoretical and computational models for engineering applications. His research group acts as a bridge among mathematical science, theoretical mechanics, and engineering industry. The research group’s representative works include, but are not limited to the development of solution techniques for predicting brittle-ductile transition of porous media, coupled deformation-diffusion in non-isothermal saturated and unsaturated porous media, formulations of stabilized mixed-field finite element model for large deformation multiphysics problems, modeling and homogenization of mechanical and hydraulic properties of porous media from CT images, digital rock and granular physics, modeling freezing and thawing of geological materials under the changing climate, and interdisciplinary innovation in mathematics concepts and ideas, such as graph theory, Lie algebra, and a data-driven and machine learning approach for computational mechanics and geophysics problems.
研究兴趣
论文共 152 篇作者统计合作学者相似作者
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COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING (2024): 116780
Jan Niklas Fuhg, Govinda Anantha Padmanabha,Nikolaos Bouklas,Bahador Bahmani,WaiChing Sun,Nikolaos N. Vlassis,Moritz Flaschel,Pietro Carrara,Laura De Lorenzis
arxiv(2024)
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INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING (2024)
Comprehensive Mechanics of Materialspp.303-351, (2024)
Computational Mechanics (2024): 1-23
INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICSno. 4 (2024): 889-910
COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING (2024)
CoRR (2024)
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JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2024): 105577
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