A three-dimensional finite strain volumetric cohesive XFEM-based model for ductile fracture
A Kaniadakis, JP Crété, P Longère - Engineering Fracture Mechanics, 2024 - Elsevier
The verification/prediction by numerical simulation of the resistance of large-scale metal
structures subjected to extreme loading (eg accidental mechanical overload) that can lead to …
structures subjected to extreme loading (eg accidental mechanical overload) that can lead to …
Promoting convergence: The phi spiral in abduction of mouse corneal behaviors
Why do mouse corneal epithelial cells display spiraling patterns? We want to provide an
explanation for this curious phenomenon by applying an idealized problem solving process …
explanation for this curious phenomenon by applying an idealized problem solving process …
A new 3D finite element for the finite deformation of nearly incompressible hyperelastic solids
A Bijalwan, BP Patel - International Journal of Materials and …, 2019 - inderscienceonline.com
Volumetric locking is exhibited by nearly incompressible solids such as rubber, resulting in
over-stiffening response of the finite element mesh. In this work, we developed the …
over-stiffening response of the finite element mesh. In this work, we developed the …
Mean dilatational based finite element formulation for a nearly incompressible nonlinear large deformation analysis
AD Anto, HK Cho - Journal of Mechanical Science and Technology, 2022 - Springer
The finite element method (FEM) is one of the most powerful tools that can be used to solve
engineering problems. Standard displacement-based isoparametric elements are the most …
engineering problems. Standard displacement-based isoparametric elements are the most …