Go to:
Logótipo
Comuta visibilidade da coluna esquerda
Você está em: Start > Publications > View > Effective 2D and 3D crack propagation with local mesh refinement and the screened Poisson equation
Publication

Publications

Effective 2D and 3D crack propagation with local mesh refinement and the screened Poisson equation

Title
Effective 2D and 3D crack propagation with local mesh refinement and the screened Poisson equation
Type
Article in International Scientific Journal
Year
2018
Authors
areias, pma
(Author)
Other
View Personal Page You do not have permissions to view the institutional email. Search for Participant Publications View Authenticus page Without ORCID
Reinoso, J
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
Camanho, PP
(Author)
FEUP
View Personal Page You do not have permissions to view the institutional email. Search for Participant Publications View Authenticus page View ORCID page
José César de Sá
(Author)
FEUP
View Personal Page You do not have permissions to view the institutional email. Search for Participant Publications View Authenticus page View ORCID page
Rabczuk, T
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
Journal
Vol. 189
Pages: 339-360
ISSN: 0013-7944
Publisher: Elsevier
Other information
Authenticus ID: P-00N-MJJ
Abstract (EN): In this paper, we propose a simple 2D and 3D crack evolution algorithm which avoids the variable/DOF mapping within mesh adaptation algorithms. To this end, a new area/volume minimization algorithm for damaged elements is introduced with the goal of improving the crack path representation. In addition, the new algorithm consists of: (i) meshcreation stage where a damage model is employed to drive the remeshing procedure (ii) a subsequent analysis stage with a localization limiter in the form of a modified screened Poisson equation. This is exempt of crack path calculations. In the second stage, the crack naturally occurs within the refined region. A staggered algorithm for equilibrium and screened Poisson equations is used in this second stage. Element subdivision is based on edge split operations in 2D and 3D using the damage variable. Both 2D and 3D operations are described in detail. With the objective of assessing the robustness and accuracy of the algorithm, we test its capabilities by means of four quasi-brittle benchmark applications.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 22
Documents
We could not find any documents associated to the publication.
Related Publications

Of the same journal

Special issue - Fracture of composite materials - Foreward (2008)
Another Publication in an International Scientific Journal
António Torres Marques; de Morais, AB
Mechanical fatigue of metals (2017)
Another Publication in an International Scientific Journal
Correia, JAFO; Abilio M P De Jesus; Pariente, IF; Belzunce, J; Fernandez Canteli, A
Utilizing a ductile damage criterion for fracture analysis of a dissimilar aluminum/steel joint made by friction stir welding (2022)
Article in International Scientific Journal
Beygi, R; Akhavan Safar, A; Ricardo Carbas; Barbosa, AQ; Marques, EAS; da Silva, LFM
Two-dimensional integrated mixed-mode smeared crack model for simulating FRC structures (2023)
Article in International Scientific Journal
Matos, LMP; Barros, JAO; Ventura Gouveia, A; Rui Calçada
Trefftz boundary element method applied to fracture mechanics (1999)
Article in International Scientific Journal
Domingues, JS; Portela, A; Paulo Tavares de Castro

See all (62)

Recommend this page Top
Copyright 1996-2025 © Faculdade de Direito da Universidade do Porto  I Terms and Conditions  I Acessibility  I Index A-Z
Page created on: 2025-08-18 at 13:58:06 | Privacy Policy | Personal Data Protection Policy | Whistleblowing