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A novel meshless method based on RBF for solving variable-order time fractional advection-diffusion-reaction equation in linear or nonlinear systems[Formula presented] Journal article
Xu,Yi, Sun,Hong Guang, Zhang,Yuhui, Sun,Hai Wei, Lin,Ji. A novel meshless method based on RBF for solving variable-order time fractional advection-diffusion-reaction equation in linear or nonlinear systems[Formula presented][J]. Computers and Mathematics with Applications, 2023, 142, 107-120.
Authors:  Xu,Yi;  Sun,Hong Guang;  Zhang,Yuhui;  Sun,Hai Wei;  Lin,Ji
Favorite | TC[WOS]:6 TC[Scopus]:7  IF:2.9/2.6 | Submit date:2023/08/03
Meshless Method  Nonlinear  Time Fractional Advection-diffusion-reaction Equation  Variable-order Fractional Derivative  
An improved impermeable solid boundary scheme for Meshless Local Petrov–Galerkin method Journal article
Pan, Xinglin, Zhou, Yan, Dong, Ping, Shi, Huabin. An improved impermeable solid boundary scheme for Meshless Local Petrov–Galerkin method[J]. EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, 2022, 95, 94-105.
Authors:  Pan, Xinglin;  Zhou, Yan;  Dong, Ping;  Shi, Huabin
Favorite | TC[WOS]:2 TC[Scopus]:1  IF:2.5/2.3 | Submit date:2022/05/31
Flow Around Structures  Meshless Local Petrov–galerkin Method  Wall Boundary Conditions  Weak Formulation  
A novel stabilized Galerkin meshless method for steady incompressible Navier–Stokes equations Journal article
Hu, Guanghui, Li, Ruo, Zhang, Xiaohua. A novel stabilized Galerkin meshless method for steady incompressible Navier–Stokes equations[J]. ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS, 2021, 133, 95-106.
Authors:  Hu, Guanghui;  Li, Ruo;  Zhang, Xiaohua
Favorite | TC[WOS]:9 TC[Scopus]:11  IF:4.2/3.3 | Submit date:2021/12/08
Galerkin Meshless Method  Variational Multiscale Method  Incompressible Navier–stokes Equations  Stabilized Method  
Model development and numerical simulation of temperature-sensitive hydrogels Journal article
L. Yin, Z. Yuan, L.H. He. Model development and numerical simulation of temperature-sensitive hydrogels[J]. Computational Materials Science, 2004, 31(3-4), 299-308.
Authors:  L. Yin;  Z. Yuan;  L.H. He
Favorite | TC[WOS]:4 TC[Scopus]:4  IF:3.1/3.2 | Submit date:2019/01/03
Hydrogels  Swelling Ratio  Meshless Method  Mathematical Model  Polymer  Convection–diffusion Equation  
Model development and numerical simulation of electric-stimulus-responsive hydrogels subject to an externally applied electric field Journal article
Hua Li, Z. Yuan, K.Y. Lam, H.P. Lee, Jun Chen, Justin Hanes, Jie Fu. Model development and numerical simulation of electric-stimulus-responsive hydrogels subject to an externally applied electric field[J]. Biosensors and Bioelectronics, 2004, 19(9), 1097-1107.
Authors:  Hua Li;  Z. Yuan;  K.Y. Lam;  H.P. Lee;  Jun Chen; et al.
Favorite | TC[WOS]:76 TC[Scopus]:81  IF:10.7/9.9 | Submit date:2019/01/03
Electric-stimulus Responsive Hydrogels  Multiphasic Mixture Theory  Mathematical Mode  Diffusion  Convection  Biomems  Meshless Method