Presentations and Authors


Last name A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Track:
 

MS-000 General Papers

A spherical harmonic-random field coupled method for efficient reconstruction of CT-image based 3D aggregates with controllable multiscale morphology
Fuqiang Guo, Zhenjun Yang

MS-003 Mechanics of surface/interface and bionics

Directional transport and fixed-point transfer of droplets on functionalized surfaces
Shaohua Chen, Ming Liu, Yazheng Yang

MS-010 Data-driven Surrogate Modeling Techniques for Inverse and Other Related Problems

Non-iterative topology optimization by using generative and adversarial neural network
Jicheng Li, Hongling Ye

MS-013 Large Scale Coupled Problems and Related Topics

Large scale vibration analysis of Stradivari’s violin
Misora Kojima, Ryuji Shioya, Masao Yokoyama, Amane Takei, Genki Yagawa

MS-014 Progresses of Computational Marine Hydrodynamics

Numerical study of pressure fluctuation and DMD analysis for SUBOFF model
Lianjie Yu, Yuan Zhuang, Decheng Wan

MS-015 Smoothed Finite Element Methods and Related Techniques

Adaptive quadtree refinement in gradient-smoothing approach for gradient elasticity
Changkye Lee, Sundararajan Natarajan, Jurng-Jae Yee
A sharp interface immersed edge-based smoothed finite element method with extended fictitious domain scheme for fluid-structure interaction
Gang Wang, Yin Hong, Chicheng Ma, Chengjiao Yu, Xu Han

MS-021 Multiscale modelling of engineering materials

Elastic analysis for porous microstructure using Virtual Element Method (VEM)
Nguyen Hoang Phuong, Le Van Canh, Ho Le Huy Phuc, Jurng-Jae Yee

MS-025 Limit state analysis of structures and materials

A bubble-enriched smoothed finite element method for shakedown analysis of structures
Phuc L.H. Ho, Changkye Lee, Canh V. Le, Phuong H. Nguyen, Jurng-Jae Yee

MS-028 Kernel and machine learning based solutions of PDEs

Adaptive neural network with an effective activation function for solving time fractional diffusion equations
Ziqing Yang, Ruiping Niu, Hongen Jia, Junhong Yue

MS-032 Local and nonlocal modeling approaches in dynamics

Dynamic crack propagation analysis by coupling the boundary element method and the bond-based peridynamics
Yang Yang, Yijun Liu

MS-036 Mechanics of soft materials

Mechanical modeling of hydrogel composites with different fiber volume fractions in multiple orientations
Xiangchuan Nian, Qingsheng Yang

MS-039 Computational Particle Dynamics

Numerical investigation of Particle Deposition on Substrates in Cold Spraying by SPH Method
Zhen Dai, Fei Xu, Jiayi Wang, Qiuzu Yang, Yazhou Guo
A Normal Flux-based SPH-FEM Coupling Method for Simulating Fluid-Shell Interactions
Weibin Yan, Fei Xu, Xianmin Chen
Simulation of non-cohesive soil turning based on an SPH model
Can Yi, Dianlei Feng, Man Hu, Yu Huang

MS-042 Structural Reliability Analysis and Design Optimization

A fail-safe topology optimization based on multiscale structures
Jianghong Yang, Yingjun Wang
Transfer learning enforced structural reliability-based design optimization
Zhe Zhang, Li Chen, Gang Yang, Chao Jiang

MS-046 Seismic performance and resilience analysis of underground space and tunnelling

Construction and verification of composite intensity measures for multi-storey subway station structures based on partial least squares regression
wei yu, zhiyi chen

Publication at the conference Proceedings

Bilinear constitutive model based theoretical study on interfacial properties of pipeline joints coupling tension and temperature
Hong Yuan, Jun Han, Yaojie Huang, Lan Zeng



.explain-selected-button.explain-selected-text-selected-show-button { display: block !important; } .explain-selected-button.explain-selected-expanded { width: 400px; border: 0px; cursor: default; height: 350px; overflow: auto; box-shadow: rgba(15, 15, 15, 0.05) 0px 0px 0px 1px, rgba(15, 15, 15, 0.1) 0px 3px 6px, rgba(15, 15, 15, 0.2) 0px 9px 24px; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded) { width: 35px; height: 35px; background: transparent; border-radius: 50%; opacity: 0.5; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded):hover::before { content: ""; position: absolute; width: 35px; height: 35px; background-color: rgba(128, 0, 128, 0.5); border-radius: 50%; top: 50%; left: 50%; transform: translate(-50%, -50%); animation: explain-selected-growAndFade 2.0s ease-in-out; animation-iteration-count: infinite; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded)::after { content: ""; position: absolute; width: 10px; height: 10px; background-color: rgb(128, 0, 128); top: 50%; left: 50%; transform: translate(-50%, -50%); border-radius: 50%; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded):hover::after { width: 14px; height: 14px; } @keyframes explain-selected-growAndFade { 0% { width: 10px; height: 10px; opacity: 1; } 100% { width: 30px; height: 30px; opacity: 0; } } .explain-selected-button { display: none !important; width: 120px; height: 28px; border-radius: 4px; border: 0px; position: absolute; z-index: 9999; opacity: 1; cursor: pointer; background: white; text-align:left; font-family: Tahoma,Arial,Helvetica Neue,Helvetica,sans-serif; background-color: #fff; color: #333; } .swal2-icon-show-explainselected { border: none; } .swal2-container p { margin: 0 !important; }