Add to ORKGSurface mounted electronic devices (SMD) are subjected to complex thermo-mechanical loads during manufacturing as well as during their service life. Even during manufacturing, voids and cracks can nucleate in soldered joints and also in components such as capacitors, made of brittle materials. An initial damage can have a detrimental effect on the lifetime of the product. Modelling of crack initiation and propagation is difficult in classical finite element analysis (FEM), due to the singularity of the mathematical functions in the differential analysis. Extended FEM (X-FEM) and meshless methods were developed to overcome these problems, nevertheless thermo-mechanical coupling of cracks and crack branching is still open for further resear...
This study presents an integrated approach for the simulation of hygro-thermo-vapor-deformation anal...
To improve design and reliability, extensive efforts has been devoted to understanding damage and fa...
This study examines the failure modeling of materials exhibiting nonlinear behavior and reduced dime...
The classical continuum theory is not capable of predicting failure without an external crack growth...
Peridynamics is an emerging nonlocal continuum theory which allows governing field equations to be a...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The mathematical modeling of failure mechanisms in solid materials and structures is a long standing...
Environmental, economic and safety concerns require more and more precise capabilities to perform th...
The peridynamic theory provides the capability for improved modeling of progressive failure in mater...
Solid mechanics is an interdisciplinary subject mainly deals with deformation of materials and struc...
An ordinary state based peridynamic model is developed for transient fully coupled thermoelastic pro...
Predicting crack propagation and fracture is still a challenging research area. There are various me...
This study presents an in-depth investigation of the critical stretch based failure criterion in Ord...
Crack propagation and branching are modeled using nonlocal peridynamic theory. One major advantage o...
The finite element method is widely utilized for the numerical solution of structural problems. Howe...
This study presents an integrated approach for the simulation of hygro-thermo-vapor-deformation anal...
To improve design and reliability, extensive efforts has been devoted to understanding damage and fa...
This study examines the failure modeling of materials exhibiting nonlinear behavior and reduced dime...
The classical continuum theory is not capable of predicting failure without an external crack growth...
Peridynamics is an emerging nonlocal continuum theory which allows governing field equations to be a...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The mathematical modeling of failure mechanisms in solid materials and structures is a long standing...
Environmental, economic and safety concerns require more and more precise capabilities to perform th...
The peridynamic theory provides the capability for improved modeling of progressive failure in mater...
Solid mechanics is an interdisciplinary subject mainly deals with deformation of materials and struc...
An ordinary state based peridynamic model is developed for transient fully coupled thermoelastic pro...
Predicting crack propagation and fracture is still a challenging research area. There are various me...
This study presents an in-depth investigation of the critical stretch based failure criterion in Ord...
Crack propagation and branching are modeled using nonlocal peridynamic theory. One major advantage o...
The finite element method is widely utilized for the numerical solution of structural problems. Howe...
This study presents an integrated approach for the simulation of hygro-thermo-vapor-deformation anal...
To improve design and reliability, extensive efforts has been devoted to understanding damage and fa...
This study examines the failure modeling of materials exhibiting nonlinear behavior and reduced dime...