Amanote Research
Register
Sign In
XFEM Modeling of Cohesive Crack Propagation in Saturated Porous Media
International Journal of Computing, Communication and Instrumentation Engineering
doi 10.15242/ijccie.ae0116012
Full Text
Open PDF
Abstract
Available in
full text
Date
January 10, 2016
Authors
Unknown
Publisher
International Institute of Engineers
Related search
Propagation of Cohesive Crack in Unsaturated Porous Media by Use of XFEM Method
E3S Web of Conferences
Earth
Energy
Planetary Sciences
Environmental Science
Macro- And Micro-Modeling of Crack Propagation in Encapsulation-Based Self-Healing Materials: Application of XFEM and Cohesive Surface Techniques
Materials and Design
Mechanics of Materials
Materials Science
Mechanical Engineering
Experimental Techniques for Studying Slow Wave Propagation in Fluid‐saturated Porous Media
Journal of the Acoustical Society of America
Acoustics
Ultrasonics
Arts
Humanities
Stochastic Multi‐Scale Modeling of Crack Propagation in Random Heterogeneous Media
International Journal for Numerical Methods in Engineering
Applied Mathematics
Numerical Analysis
Engineering
Numerical Modeling of Heat Exchange and Unsaturated–saturated Flow in Porous Media
Computers and Mathematics with Applications
Mathematics
Computational Mathematics
Simulation
Modeling
Computational Theory
Minimum Energy Multiple Crack Propagation. Part-Ii: Discrete Solution With XFEM
Engineering Fracture Mechanics
Mechanics of Materials
Materials Science
Mechanical Engineering
Quasistatic Crack Propagation in Heterogeneous Media
Physical Review Letters
Astronomy
Physics
Flux-Saturated Porous Media Equations and Applications
EMS Surveys in Mathematical Sciences
Modification of Fluid Flow Equation in Saturated Porous Media
Global Journal of Pure and Applied Sciences
