MS-000 General Papers
| Simulation driven development of a CFRPT gearbox housing | |
| Thomas Schneider, Monika Kreutzmann, Raik Rademacher, Christophe Dominé, Herve Motte, Chye Hock Tok |
MS-001 Theory and Formulation for Novel Computational Methods
| A novel method to improve the multiple-scales solution of the forced strongly nonlinear oscillators | |
| Hai-En Du, Guo-Kang Er, Vai Pan Iu |
MS-005 Numerical methods blending mesh-based and mesh-free technique
| A complex variable interpolating meshless method for two-dimensional transient heat conduction problem | |
| Ya Jie Deng, Xiao Qiao He |
MS-012 Computational Modeling for Cardiovascular Disease and Biological Applications
| Study of applied tissue power in microwave ablation | |
| Tong Dong, Qun Nan, Zhen Tian, Xiaohui Nie, Yanyan Cheng |
MS-013 Advances in BEM and Other Mesh-Reduction Methods
| Expanding element interpolation method for 2D crack problems | |
| Jianming Zhang, Yunqiao Dong |
MS-027 Multiscale and Multiphysics Modelling for Complex Materials
| Characterization of damage-healing-plasticity-breakage in multi-scale DEM-FEM modeling of granular material | |
| Xikui Li, Zenghui Wang, Qinglin Duan |
MS-029 Computational Methods in Engineering
| Numerical simulation of gasoline blending based on RJM system | |
| pan juyi, Qu Yanpeng, Chen Songying, Wan Dongdong, Tang Xinxin |
| Research on the features of gasoline mixture flow field with rotary jet mixing | |
| Wan Dongdong, Qu Yanpeng, Chen Songying, Pan Juyi, Tang Xinxin |
| Numerical investigation on the gasoline mixture with side entering mechanical agitator | |
| tang Xinxin, Qu Yanpeng, Chen Songying, Pan Juyi, Wan Dongdong |
| Investigation of Bridging Method to Predict Rarefied Aerodynamics of Lift Body | |
| Xiao-wen Liu, Guo-hui Dou, An-long Gong |
MS-038 Computational and experimental methods on additive manufacturing and related welding technologies
| Edge Effect on Eddy Current Detection for Subsurface Defects in Titanium Alloys | |
| YIbo Wang, Qian Bai, Wei Du, Bi Zhang |
MS-041 Computational Methods in Acoustics and Elastodynamics
| A meshfree method for dynamic analysis of rotating thick plates with third-order shear deformation theory | |
| chaofan du, Dingguo Zhang, Guirong Liu |
MS-054 Coupled thermal-mechanical computation for high-temperature materials
| Theoretical models on the fracture strengths of ceramic single crystal fibers at different temperatures and test rates | |
| Jiaxing Shao, Weiguo Li, Ruzhuan Wang, Yong Deng, Jianzuo Ma |
| Theoretical computation on the critical resolved shear stress of metals at different temperatures in pure shear mode | |
| Jianzuo Ma, Weiguo Li, Peiji Geng, Xuyao Zhang, Ying Li, Yong Deng |
| Theoretical prediction on temperature-dependent non-steady-state first matrix cracking stress for fiber reinforced ceramic composites | |
| Yong Deng, Weiguo Li, Xuyao Zhang |
MS-059 Advances in Semi-analytical numerical methods
| Treffz Method for Micromechanical Modeling of Nanocomposites Considering Interface Effects | |
| Junbo Wang, Leiting Dong |
| Micromechanical Modeling of Heterogeneous Materials by Computational Grains | |
| Leiting Dong |
MS-061 Structural integrity and fracture mechanics
| Numerical investigations on the effects of T-stress in creep crack | |
| Yanwei Dai, Yinghua Liu |
MS-066 State-of-the-art modeling on discrete element simulation
| Evaluation of contact force models for ellipsoidal particles | |
| Kejun Dong, Kamyar Kildashti, Bijan Samali |
| A Linkage between Particle- and Cell-scale Drag Correlations for Packed Beds of Multi-sized Particles | |
| Liangwan Rong, Kejun Dong, Aibing Yu |
MS-073 Computational fatigue and fracture mechanics performance
| Residual life assessment of incomplete fusion defects in welded bogie frame based on fracture mechanics | |
| Hao Duan, SC Wu |
MS-100 Advanced Computations in Engineering Science (by invitation only)
| Delamination and matrix cracking in L-shaped cross-ply composite laminates under four-point bending | |
| Q.F. Duan, Dongfeng cao |
Publication On e-Proceedings Only
| A development of SPH model for simulating surface erosion by impact(s) of single irregular-shaped particles | |
| Xiangwei Dong |
.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; }