[HTML][HTML] Interaction integral method for computation of crack parameters K–T–A review
H Yu, M Kuna - Engineering Fracture Mechanics, 2021 - Elsevier
A critical overview of past research on the interaction integral (I-integral) method is
presented. The I-integral is the two-state mutual energy release rate decided by a …
presented. The I-integral is the two-state mutual energy release rate decided by a …
[HTML][HTML] Advancement in the modeling and design of composite pressure vessels for hydrogen storage: A comprehensive review
The industrial and technological sectors are pushing the boundaries to develop a new class
of high-pressure vessels for hydrogen storage that aim to improve durability and and endure …
of high-pressure vessels for hydrogen storage that aim to improve durability and and endure …
A three-phase XFEM model for hydraulic fracturing with cohesive crack propagation
S Salimzadeh, N Khalili - Computers and Geotechnics, 2015 - Elsevier
A three-phase hydro-mechanical model for hydraulic fracturing is proposed. Three phases
include: porous solid, fracturing fluid and host fluid. Discontinuity is handled using extended …
include: porous solid, fracturing fluid and host fluid. Discontinuity is handled using extended …
3D coupled HM–XFEM modeling with cohesive zone model and applications to non planar hydraulic fracture propagation and multiple hydraulic fractures interference
B Paul, M Faivre, P Massin, R Giot, D Colombo… - Computer Methods in …, 2018 - Elsevier
A 3D fully coupled hydromechanical model for the simulation of fluid-driven fracture
propagation through poroelastic saturated media is presented and compared to several …
propagation through poroelastic saturated media is presented and compared to several …
Fully coupled XFEM model for flow and deformation in fractured porous media with explicit fracture flow
S Salimzadeh, N Khalili - International Journal of Geomechanics, 2016 - ascelibrary.org
A hydromechanical model with explicit fracture flow is presented for the fully coupled
analysis of flow and deformation in fractured porous media. Extended finite-element method …
analysis of flow and deformation in fractured porous media. Extended finite-element method …
Coupling mixed hybrid and extended finite element methods for the simulation of hydro-mechanical processes in fractured porous media
Simulation of coupled hydro-mechanical (HM) processes in fractured porous media requires
specific numerical schemes to deal with nonlinearity, computational burden, and …
specific numerical schemes to deal with nonlinearity, computational burden, and …
Application of an enriched FEM technique in thermo-mechanical contact problems
In this paper, an enriched FEM technique is employed for thermo-mechanical contact
problem based on the extended finite element method. A fully coupled thermo-mechanical …
problem based on the extended finite element method. A fully coupled thermo-mechanical …
Thermo-anisotropic crack propagation by XFEM
The extended finite element method (XFEM) is utilized to model the crack propagation in
thermo-anisotropic elastic materials. The discontinuity at the crack surface is located and …
thermo-anisotropic elastic materials. The discontinuity at the crack surface is located and …
[HTML][HTML] Joule heating effect on thermal stress for a bi-material interface crack
The electric-induced Joule heat plays a dominant role for the fracture and failure in
electronic devices, particularly in those with bi-material interfaces, yet the effect of Joule heat …
electronic devices, particularly in those with bi-material interfaces, yet the effect of Joule heat …
[HTML][HTML] Influence of fluid flow and heat transfer on crack propagation in SOFC multi-layered like material with anisotropic porous layers
An advanced numerical model based on the eXtended Finite Element Method (XFEM) is
developed and used to investigate the effect of heat transfer and fluid flow on crack …
developed and used to investigate the effect of heat transfer and fluid flow on crack …