Onishi, Yuki, Tokyo Institute of Technology, Japan
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The 5th International Conference on Computational Methods (ICCM2014) - MS-41: Development and application of smoothed finite element method
Invited: Performance Evaluation of the Selective Smoothed Finite Element Method with Deviatoric/Hydrostatic Split
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The 6th International Conference on Computational Methods (ICCM2015) - MS-003 Smoothed Finite Element Methods
F-bar aided edge-based smoothed finite element method with tetrahedral elements for large deformation analysis of nearly incompressible materials
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The 7th International Conference on Computational Methods (ICCM2016) - MS-046 Smoothed Finite Element Methods: Theory and Applications
Keynote: F-bar aided edge-based smoothed finite element methods with 4-node tetrahedral elements for static large deformation hyperelastic and elastoplastic problems
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The 8th International Conference on Computational Methods (ICCM2017) - MS-004 Smoothed Finite Element Methods and Related Techniques
Accurate viscoelastic large deformation analysis using F-bar aided edge-based smoothed finite element method for 4-node tetrahedral meshes (F-barES-FEM-T4)
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THE 11TH INTERNATIONAL CONFERENCE ON COMPUTATIONAL METHODS (ICCM2020) - MS-015 Smoothed Finite Element Methods and Related Techniques
SelectiveCS-FEM-T10 with Radial-type Mesh Subdivision
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The 12th International Conference on Computational Methods (ICCM2021) - MS-015 Smoothed Finite Element Methods and Related Techniques
Explicit Dynamic Analysis using SelectiveCS-FEM-T10 with Radial Element Subdivision
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The 13th International Conference on Computational Methods (ICCM2022) - MS-015 Smoothed Finite Element Methods and Related Techniques
A large deformation tetrahedral smoothed finite element formulation for nearly incompressible solids based on the strain smoothed element (SSE) technique
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The 14th International Conference of Computational Methods (ICCM2023) - MS-015 Smoothed Finite Element Methods and Related Techniques
Application of edge-based smoothed finite element method to electrodeposition simulation aiming for super-linear mesh convergence in film thickness accuracy
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