Plenary Lecture & Thematic Plenary Lecture
Computational Optimization for Biomechanics and Biomedical Engineering | |
Qing Li |
A frictional contact algorithm for implicit material point method | |
Zhenpeng Chen, Xiong Zhang, Xinming Qiu, Yan Liu |
MS-000 General Papers
A finite element model of crimped fibril reinforced composite to predict the mechanical response subjected to tensile load | |
Li Liu, Dean Hu, Xu Han |
Research on the biomechanics of lumbar muscles based on musculoskeletal model | |
Xiaotong Zhan, Zhiyong Li, Qiang Chen |
Computational Approach to Analyzing 3D Strain Distribution in Opaque Materials via Micro Computer Tomography | |
Lingtao Mao, Haizhou Liu, Fu-pen Chiang |
3D Simulation of the Defect Generation by Hydrogen at $Si-SiO_2$ Interface | |
Zhaocan Ma, Jingjie Xu, Hongliang Li, Yu Song, Linbo Zhang, Benzhuo Lu |
A reduced-order modeling technique for nonlinear buckling analysis | |
Ke Liang |
The Cardinal spline methods for the numerical solution of nonlinear integral equations | |
Xiaoyan Liu, Jiahuan Huang |
A truss section size optimization design method based on constraint variation principle | |
Yubin Liu, Xin Zheng, Shengjun Zhang, Feng Shen, Xiangrong Fu |
Flutter frequency based on bending - torsion coupling theory | |
Xin Zheng, Yu-Bin LIU, Pu CHEN, Feng SHEN, Sheng-Jun ZHANG, Xiang-Rong FU |
Random walk of Brownian particles on non-uniform grids | |
Jianwen Zhang, Zirui Li |
CFD analysis of the heat transfer of fire doors under the standard time-temperature curve | |
Hou-Kuan Tam, Hau-Yin Leung, Lap-Mou Tam, Seng-Kin Lao |
MS-001 Theory and Formulation for Novel Computational Methods
Numerical methods for structural dynamic responses based on radial basis functions approximation | |
Yanting Li, Jiqing Xu, Xibin Xu |
Nystrom extrapolation algorithm for solving delay Volterra integral equations with weakly singular kernel | |
li zhang, Jin Huang, Yubin Pan, Hongyan Liu |
A Non-standard Finite-difference Scheme for a Burgers-Fisher Partial Differential Equation with Bounded Travelling-wave solutions | |
G.F Sun, G.R Liu |
Hybrid approximation spaces for solving compressible Navier-Stokes equations with high Reynolds number | |
Fan Zhang, Jian Cheng, Tiegang Liu |
MS-004 Smoothed Finite Element Methods and Related Techniques
Stability analysis of smoothed finite element method with explicit method for transient heat transfer | |
Xin Rong, Ming Li, Ruiping Niu |
A novel alpha smoothed finite elements method for ultra-accurate solution using quadrilateral elements | |
yanhua li |
A Characteristic based ES-FEM with Polynomial Pressure Projection for Incompressible flows | |
Chen Jiang, Xu Han, G.R. Liu |
A weakened weak (W2) form and a G space | |
Ming Li |
MS-006 Modelling and Characterisation of Mechanical Behaviour of Advanced Materials
Numerical calculation of material configurational force based on ABAQUS secondary development and its applications | |
Yue Chen, Qun Li |
Crack interacting with an individual hole by the fracture criterion of configurational force | |
Bin Gu, Yuli Guo, Qun Li |
Shakedown analysis of structures with temperature-dependent properties | |
SHYUE-YUH LEU |
MS-007 Numerical modelling of nonlinear transient phenomena
Investigation of dispersion effects in plates from a numerical point of view | |
Piotr Kijanka, Pawel Packo, Rafal Radecki, Michael J. Leamy |
MS-008 Algorithms, Software and Applications of Large-Scale Computation
Fourier transform analysis of convergence properties of MultiGrid V-cycle algorithms | |
Yu Zhang, Ming Li, Guirong Liu |
Large scale traffic evacuation simulation based on multi-agent modeling | |
shuiping Yu, Shengcheng Yuan, Yi Liu, Jing Qian |
Building Language Models with Fuzzy Weights | |
Tsan-Jung He, Shie-Jue Lee, Chih-Hung Wu |
MS-009 Particle Based Methods
Simulation of high-velocity impact process of 3D woven orthogonal composite from meso-scale point-based model | |
Yan Liu, Xuena Si, Xiong Zhang |
Accelerating Peridynamics Program Using GPU with CUDA and OpenACC | |
J.X. Li, J.M. Zhao, F. Xu, Y.J. Liu |
Time-discontinuous Material Point Method for Transient Problems involving Discontinuities in Stress | |
Yonggang Zheng, Mengkai Lu, Jiayong Zhang, Hongwu Zhang, Zhen Chen |
Simulation of hydraulic fracturing process by using peridynamics | |
Shuhui Li, Fan Wu |
MS-012 Computational Modeling for Cardiovascular Disease and Biological Applications
Numerical Simulation of Instantaneous Wave-Free Ratio of Stenosed Coronary Artery | |
Wenxin Wang, Youjun Liu, Boyan Mao, Bao Li |
A Segmentation Method for Intracoronary Optical Coherence Tomography (OCT) Image Based on Least Squares Support Vector Machine: Vulnerable Coronary Plaque Cap Thickness Quantification | |
Xiaoya Guo, Dalin Tang, David Molony, Chun Yang, Habib Samady, Jie Zheng, Gary Mintz, Akiko Maehara, Liang Wang, Xuan Pei, Zhi-Yong Li, Genshan Ma, Don Giddens |
Reproducibility of optical coherence tomography imaging based measurements of the fibrous cap thickness in lipid-enrich atheroma | |
Chunliu He, Zhiyong Li, Jiaqiu Wang, Yuxiang Huang, Yuehong Miao, Tongjing Zhu |
Effect of distal stenosis on the blood flow in right coronary arteries with serial stenoses | |
Biyue Liu, Dalin Tang |
An FSI modeling approach to combine IVUS and OCT for more accurate patient-specific coronary cap thickness and stress/strain calculations | |
Xiaoya Guo, Don Giddens, David Molony, Chun Yang, Habib Samady, Jie Zheng, Gary Mintz, Akiko Maehara, Liang Wang, Xuan Pei, Zhi-Yong Li, Dalin Tang |
The method of personalized lumped parameter model of coronary artery | |
Bao Li, Wenxin Wang, Xi Zhao, Boyan Mao, Youjun Liu, Zhou Zhao |
Geometric calibration based on a simple phantom for multi-lens microscopic CT | |
Luo Shouhua, Xu Haitao, Zheng Liang, Zhang Xiaobing, Shen Tao |
Hemodynamic effects of lesion length on competitive flow with internal mammary artery bypass | |
Boyan Mao, Huixia Zhang, Wenxin Wang, Bao Li, Youjun Liu |
Applying virtual stent deployment to study flow-diversion treatment for intracranial aneurysms: the effect of stent compaction on post-treatment wire configuration | |
Mingzi Zhang, Yujie Li, David I. Verrelli, Winston Chong, Makoto Ohta, Yi Qian |
Modelling flow-diverting stent as porous medium with different permeabilities in the treatment of intracranial aneurysms: a comparison of a successfully treated case and an unsuccessful one | |
Yujie Li, Mingzi Zhang, David I. Verrelli, William Yang, Winston Chong, Makoto Ohta, Yi Qian |
Impact of carotid bifurcation geometry on atherosclerotic formation: A hemodynamic study | |
Xin-Ke Yao, Yan Cai, Jie Gao, Ge-Lin Xu, Zhi-Yong Li |
MS-013 Advances in BEM and Other Mesh-Reduction Methods
Accelerating BEM in macromolecular electrostatics computing | |
Benzhuo Lu |
A double-layer interpolation boundary face method for potential problems in two dimensions | |
Jianming Zhang, Weicheng Lin |
Improved method of fundamental solutions in conjunction with kernel-independent fast multipole method for solving potential problems | |
Zhuojia Fu, Junpi Li, Wen Chen |
In-plane free vibration of circular and annular FG disks | |
Yang Yang, Kun Pang Kou, Chi Chiu Lam |
Shape optimization of acoustic structure using an isogeometric fast multipole boundary element method | |
Haibo Chen, Cheng Liu, Wenchang Zhao |
A FEM/BEM based topology optimization of submerged bi-material shell structures under harmonic excitations | |
Wenchang Zhao, Leilei Chen, Cheng Liu, Haibo Chen |
An application of fast multipole method to isogeometric boundary element method in two-dimensional acoustic problems | |
Jie Wang, cheng liu, haibo chen |
A new fast direct solver for the BEM | |
Yijun Liu, Shuo Huang |
Band Structures of Phononic Crystals with Defects Based on the Boundary Element Method | |
Feng-lian Li |
MS-014 Modelling and Simulation of Complex Systems
Mean Field Free Energy Functional of Electrolyte Solution with Non-homogenous BCs and the Generalized PB/PNP Equations | |
Xuejiao Liu |
Concept of dynamical traps in modeling human behavior | |
Ihor Lubashevsky |
MS-015 Fluid-Structure Interaction and Multiphysics Problems in Aerospace Engineering
Control of Energy Flow and Wave Propagation by Periodically Distributing Piezoelectric Materials with Identical Shunting Circuits | |
Yu FAN, Lin Li, Olivier Bareille, Mohamed Ichchou |
MS-016 Multiscale modelling of damage and fracture in quasi-brittle materials
Micromechanical Studies of Strain Rate Dependent Compressive Strength in Brittle Polycrystalline Materials | |
Bo Li, Hao Jiang, Zongyue Fan |
MS-017 Computational errors and their evaluation
Extrapolation Methods for Computing Supersingular Integral on a Circle | |
Jin Li |
MS-018 Computational modeling and experimental characterization of soft tissues
Calculation of unloaded configurations for finite element simulations of patient-specific geometries with application to human common carotid artery | |
Xuhui Li, Mikhail Itskov, Mahmood Jabareen |
Simulation of Biological Tissues using Numerical Hyperelasticity and Strain-Enriched Finite Element Analysis (Sefea) | |
H. Theodore Lin |
MS-019 Large Scale Coupled Problems and Related Topics
Parameters optimization of hydraulic fracturing for improving fracture complexity in shale reservoirs | |
Chuang Liu |
Performance evaluation of large-scale high-frequency electromagnetic field simulations using iterative substructuring methods | |
LIJUN LIU, MASAO OGINO |
A Quadric Stabilization Approach on Partitioned Fluid-Structure Interaction Algorithm | |
Ming-Jian Li |
MS-022 Advanced modeling techniques and applications for polymer based additive manufacturing
Development of a multi-phase viscoelastic solver for polymer based additive manufacturing simulation | |
Jun Liu, Kelly Anderson, N. Sridhar |
MS-023 Numerical modelling of fibre reinforced composites under impact and blast
Numerical modeling of a hybrid GFRP-concrete beam subjected to low-velocity impact loading | |
Zongjun Li, Amar Khennane, Paul Jonathan Hazell, Alex Remennikov |
MS-024 Advanced Computational Methods for Soft Matters
Buckling of interfacial layers in periodic cellular composite structures | |
YuHao He, Rong Huang, Zishun Liu |
Auxetic metamaterials of square structure | |
Yu Zhou, Zishun LIU |
MS-025 Modelling and Simulation on Nanomechanics
Strain rate and temperature dependent mechanical properties in CNT-reinforced magnesium composites | |
Xia Zhou, Xiaoxia Liu, Mengqi Shen |
Plastic deformation mechanism in gradient nanoscale grained iron via atomistic model coupled with crystal plasticity finite element simulations | |
Jia Li |
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 |
A new multiscale computation method for geometrically nonlinear analysis of 3D fluid actuated cellular structures | |
Jun Lv, Liang Zhang, Hongwu Zhang |
MS-028 Advanced Computational Methods for The Mechanical Modeling of Materials and Structures
Some novel numerical applications of Cosserat continua | |
Nicholas Fantuzzi, Lorenzo Leonetti, Patrizia Trovalusci, Francesco Tornabene |
MS-029 Computational Methods in Engineering
Study of RFD Model Spectrum and the Characteristic Conversion Methods | |
J.Y. Li, Hui Wang |
Acoustic Characteristics of Three-dimensional Membrane-imbedded Acoustic Metamaterial | |
Yang Li, Xiaoming Wang, Yulin Mei |
Matrix acidizing analysis in fractured carbonate formations by using UPNM | |
Yun Chen, Guo Wei Ma, Tuo Li, Yang Wang, Feng Ren |
Investigation of Bridging Method to Predict Rarefied Aerodynamics of Lift Body | |
Xiao-wen Liu, Guo-hui Dou, An-long Gong |
Numerical solution of a bioheat transfer problem with transient blood temperature | |
Kuo-Chi Liu, Fong-Jou Tu |
MS-032 Recent Advances in Meshfree and Particle Methods
Two-dimensional SPH simulation of liquid sloshing in a rotating tank | |
jiaru shao, Moubin Liu |
A new formula for predicting the crater size of a target plate produced by hypervelocity impact | |
zhilang Zhang, moubin Liu |
Pressure control in dissipative particle dynamics and its application in simulating micro- and nano-bubbles | |
Yuqing Lin, Jiaming Li, Dingyi Pan |
Particle method simulation of violent sloshing under rotational excitation | |
Min Luo, Chan Ghee Koh |
The CCVMLS approximation and the envelop method | |
D.M. Li |
A novel velocity field correction method to reproduce wake effects in unresolved modeling of granular flows | |
Zekun Wang, Khuram Walayat, Moubin Liu |
A multigrid finite element fictitious boundary method for fluid-solid two-phase flows | |
Khuram Walayat, Zekun Wang, Kamran Usman, Moubin Liu |
MS-033 Modelling and Simulation of Multifunctional Composite Materials
Application of the improved equivalent static loads optimization theory on the crash condition of vehicle components | |
QQ Li, Z. C. He, Tao Tao Chen, A. G. Cheng |
Temperature influences on the performance of a dielectric elastomer generator with consideration of dissipation processes and failures | |
Shoue Chen, Zhicheng He, Eric Li |
An ultra-accurate algorithm in the design of fluid/solid and solid/fluid phononics crystals | |
Eric Li |
An acoustic pressure-based method for load identification in coupled structural-acoustic system with non-probabilistic uncertain variables | |
Xinyou Lin |
MS-035 Computational ship mechanics: theory, numerical methods and engineering applications
Smoothed point interpolation method (S-PIM): A brief history and recent developments | |
Guiyong Zhang, Da Hui, Shuangqiang Wang, Huan Lu, Gui-Rong Liu |
Numerical method for underwater explosion loads and the associated structure damage | |
Rui Han, Yunlong Liu, Aman Zhang |
Coupling immersed boundary-lattice Boltzmann method with smoothed point interpolation method for large-displacement fluid-structure interaction problems | |
Shuangqiang Wang, Guiyong Zhang, Yunan Cai, Sheng Li, Jianhua Lu |
Numerical Predictions of Hydrodynamic Forces and Squat of Ships in Confined Waters | |
Yi Liu, Lu Zou, Zao-Jian Zou, Teng-Chao Lu |
The Numerical Investigation on Hydrodynamic Performance of Twisted Rudder during Self-propulsion | |
Cong Liu, Decheng Wan |
Numerical modeling of bubbles near rigid boundary using OpenFOAM | |
Shiping Wang, Tong Li, Aman Zhang |
Numerical Simulation of Internal Flow Field Characteristics for a Ducted Propeller | |
Jie Gong, Chunyu Guo, Tiecheng Wu, Kewei Song, Jianfeng Lin |
Experimental and Numerical Study on the Wake Field of a 76000 DWT Panamax Bulker | |
Tiecheng Wu, chunyu Guo, Wanzhen Luo, Jie Gong, Yongze Xu, Wenxuan She |
MS-036 Immersed boundary method for fluid structure interaction
Computational Fluid Dynamic (CFD) method to simulate complex-structured soft-body locomotion using OpenFOAM | |
Hui FENG, Peter TODD, Heow Pueh LEE |
MS-037 Nanoscale thermal transport and nanomechanics
Invited: Thermal Transport in Graphene with Defect and Doping: Phonon Modes Analysis | |
Shiqian Hu, Jie Chen, Nuo Yang, Baowen Li |
MS-038 Computational and experimental methods on additive manufacturing and related welding technologies
Simulation analysis of Electron beam melting using a multi-scale model | |
Pengwei Liu, Xiangyang Cui |
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 |
Acoustical Properties of the Composite Structures Made of Micro-Perforated Plates and Honeycomb Core | |
Menglin Li, Fei Xu |
MS-042 Numerical modelling methods and applications in renewable energy flows
Wind field simulation over complex terrain with isogeometric analysis | |
Rafael Montenegro, J.M. Escobar, J.I. López, M. Brovka, A. Oliver, G. Montero, E. Rodríguez, G.V. Socorro-Marrero |
MS-044 Structural optimization method and application
Design of lightest pyramidal lattice hollow truss structures with maximum sound insulation performance under random and interval uncertainties | |
Jie Liu |
Shape optimum design of shear panel damper made of low yield steel | |
Yang LIU |
Stability Optimization of A Two-leg Shield Hydraulic Support Based on Its Force Equilibrium Zone | |
Lichuang Liang, Hui Zheng |
A metamodel updating strategy for multi-objective optimization with expensive simulation models | |
Fengling Gao, Yingchun Bai, Cheng Lin |
Optimum design of slender and tall wind turbine tower for residual vibration reduction | |
Yinan Lu, Gengdong Cheng |
MS-045 Computational Biomechanics
Effectsof boundary on biofilm morphogenesis | |
Cheng Zhang, Bo Li, Jing-Ying Tang, Xi-Qiao Feng |
MS-050 Advances in phase-field modeling of microstructural dynamics in advanced materials
Phase field model for stress evolution in an arbitrarily shaped elastoplastic electrode during two-phase lithiation | |
yuyang lu |
Phase field modeling of ferroelectric material with isogeometric analysis | |
Chang Liu |
MS-051 Structural uncertainty analysis
Fuzzy static analysis of engineering structures involving functionally graded materials | |
Di Wu, Airong Liu, Wei Gao |
Analysis of hydraulic massive concrete structures using stochastic finite element method | |
JING CHENG, Peicong Li, Fanxuan Meng, Jinpeng Wei |
MS-053 Damage modeling of engineering structures: from localized cracking to structural collapse
Numerical simulation for compression failure of bimaterial interface by using cohesive zone model | |
Liya 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 |
Modeling of Temperature-dependent Shear Modulus of Bulk Metallic Glasses | |
Xianhe Zhang, Weiguo Li, Peiji Geng, Ying Li |
Theoretical prediction on temperature-dependent non-steady-state first matrix cracking stress for fiber reinforced ceramic composites | |
Yong Deng, Weiguo Li, Xuyao Zhang |
MS-055 Numerical Methods Based Unstructured Meshes and Their Applications in Engineering
A four-noded triangular (Tr4) element for solid mechanics problems with curved boundaries | |
Junhong Yue, G.R. Liu, R.P. Niu, Ming Li |
An edge-based smoothed finite element method (ES-FEM) for electromagnetic field computations | |
Shaw Li |
MS-056 Optimal design of smart structures for vibration control
The multi-objective optimal design of semi-active controllers for vehicle suspensions with Magnetorheological damper | |
Guiping Liu |
MS-059 Advances in Semi-analytical numerical methods
A Numerical Method for the jerk of Structural Dynamic Response | |
Ji-qing Xu, Yanting Li |
Adomian Decomposition Method for First Order Partial Differential Equations | |
Tzon-Tzer Lu |
MS-060 Computational Mechanics of Functional Materials and Structures
A finite element method used for contact analysis of rolling bearings | |
Shuting Li |
Modeling microstructure of solid foam using random Kelvin open-cells – Influence of boundary parameters and cell strut cross-section | |
Guangfa Gao, Pei Li, Yangbo Guo, Victor P.W. Shim |
Effect of different electric inclusions on large electrocaloric effect in ferroelectric nanoparticle | |
Cheng Huang, Yu-Hao Li, Cun-Fa Gao |
MS-061 Structural integrity and fracture mechanics
Numerical investigations on the effects of T-stress in creep crack | |
Yanwei Dai, Yinghua Liu |
MS-062 Stochastic Modeling and Uncertainties in Computational Mechanics of Materials
Probabilistic fracture toughness prediction of composite materials | |
Yan Li, Min Zhou |
MS-063 Model and Simulation for Advanced Manufacturing
Optimizing the Geometric Parameters of Cutting Edge for Finishing Machining of 30Cr2Ni4MoV Alloy Steel | |
Bicheng Guo, Feng Jiang, Tongkai Liao, Fuzeng Wang, Lan Yan |
MS-064 Particle Methods and Their Applications in Engineering
Numerical Investigation of Martian Entry Vehicles Aerodynamics for Hypersonic Rarefied Conditions | |
Fei Huang, Xiao-wen Liu, Xu-hong Jin |
MS-065 Computational Marine Hydrodynamics
Numerical prediction and analysis of motion response of high speed planing craft in regular waves | |
Hongjie Ling |
Numerical Simulation of Regular Waves onto a Vertical Circular Cylinder | |
Zhenghao Liu, Decheng Wan |
MS-066 State-of-the-art modeling on discrete element simulation
CFD-DEM Study of the Effect of Cyclone Arrangements on the Gas-solid Flow Dynamics in the Full-loop Circulating Fluidized Bed | |
Shuai Wang, Kun Luo, Junjie Lin, Chenshu Hu, Jianren Fan |
Numerical study of hydrodynamics and heat transfer in a spouted bed | |
junjie lin |
MS-070 Advances in Numerical Methods for Multiple Inclusion Problems
Development of a three-dimensional volume integral equation method | |
Jungki Lee |
MS-073 Computational fatigue and fracture mechanics performance
On the foreign object damage based fatigue mechanism of high-speed railway axles | |
Y Luo, S.C. Wu, Z.W. Xu, Z.X. Zhang, Z.W. Li |
On the defect tolerance based fatigue crack growth life prediction of railway axles | |
yuxuan Liu, S.C. WU |
MS-077 Engineering Inverse Problems: theory and numerical methods
Parameter identification for high-fidelity simulation | |
cao lixiong |
The Identification of the Constitutive Model Parameters of White Matter of Brain Tissue | |
Qiming Liu |
MS-100 Advanced Computations in Engineering Science (by invitation only)
An edge-based smoothed finite element method (ES-FEM) for acoustic problems using four-node quadrilateral elements | |
Wei Li, Xiangyu You, Yingbin Chai, Ming Lei |
Particle modeling at ACES in two decades | |
Moubin Liu |
Publication On e-Proceedings Only
Biot’s Consolidation analysis using the node-based smoothed point interpolation method (NS-PIM) | |
Shiyang Pan, Tongchun Li, Jing Cheng, Ping Yuan, Xinyang Ning |
An Improved Algorithm for Clustering | |
Tsan-Jung He, Zhao-Yu Wang, Shie-Jue Lee, Shing-Tai Pan |
Two-Dimensional Unsteady Flow Calculations of a Five Bladed Vertical Axis Wind Turbine | |
Nishant Mishra, Praveen Laws, Rajagopal Vinod Bethi, Santanu Mitra |
Solving nonlinear singular boundary value problems using a newly constructed scaling function | |
Yanan Liu |
Smoothed finite element methods for solving 3D steady and transient | |
Ruiping Niu, G.R. Liu, J.H. Yue |
Development of the advanced software package based on S-FEM | |
Ruiping Niu, J.F. Zhang, J.H. Yue, Y. Li |
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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; } .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; } .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; } .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; } .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; }