Personal Information
Entreprise/Lieu de travail
Melbourne, Australia Australia
Profession
Lecturer at Monash University
Secteur d’activité
Real Estate/ Construction / Architecture
Site Web
nvinhphu.wix.com/mysite
À propos
My interests include numerical methods for solid mechanics such as FEM, extended finite element method (XFEM), meshless/particle methods like the Element Free Galerkin Method (EFG) and Material Point Method (MPM) and the recently emerged isogeometric analysis (IGA). Typical application domains are crack modeling, damage analysis, multi-scale modelling of materials.
I have been using object oriented programming in C++ to write FEM, XFEM, IGA codes since 2005.
My PhD was about multiscale failure modelling of quasi-brittle heterogeneous materials in which I developed enhanced continuous-discontinuous computational homogenization (FE2 methods) to model the transition from microscopic dif...
Mots-clés
fem
education
learning
research education
high-quality writing
scientific writing
writing
engineering
nurbs
b-splines
isogeometric
igafem
cracks
fracture modeling
cohesive elements
Tout plus
Présentations
(8)J’aime
(2)How to write a high quality scientific paper
Nguyen Vinh Phu
•
il y a 3 ans
The immersed boundary method, from 2D fibres to 3D finite elements
uvacolloquium
•
il y a 8 ans
Personal Information
Entreprise/Lieu de travail
Melbourne, Australia Australia
Profession
Lecturer at Monash University
Secteur d’activité
Real Estate/ Construction / Architecture
Site Web
nvinhphu.wix.com/mysite
À propos
My interests include numerical methods for solid mechanics such as FEM, extended finite element method (XFEM), meshless/particle methods like the Element Free Galerkin Method (EFG) and Material Point Method (MPM) and the recently emerged isogeometric analysis (IGA). Typical application domains are crack modeling, damage analysis, multi-scale modelling of materials.
I have been using object oriented programming in C++ to write FEM, XFEM, IGA codes since 2005.
My PhD was about multiscale failure modelling of quasi-brittle heterogeneous materials in which I developed enhanced continuous-discontinuous computational homogenization (FE2 methods) to model the transition from microscopic dif...
Mots-clés
fem
education
learning
research education
high-quality writing
scientific writing
writing
engineering
nurbs
b-splines
isogeometric
igafem
cracks
fracture modeling
cohesive elements
Tout plus