20182019
If you made any changes in Pure these will be visible here soon.

Personal profile

Research profile

• Development of novel numerical formulations based on the cohesive zone model approach for the analysis of fatigue-driven delamination in layered composite materials.
• Implementation of the developed numerical formulations as user’s subroutines in the commercial finite element code Abaqus.
• Design of efficient testing methods for the characterization of delamination in layered composite materials under fatigue loading

External positions

Lab technician, University of Girona

1 Dec 201411 Sep 2015

Assistant lecturer, University of Girona

2 Oct 201211 Sep 2015

Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

  • 2 Similar Profiles
Subroutines Engineering & Materials Science
Delamination Engineering & Materials Science
evaluation Physics & Astronomy
Processing Engineering & Materials Science
damage Physics & Astronomy
subroutines Physics & Astronomy
propagation Physics & Astronomy
formulations Physics & Astronomy

Network Dive into details by clicking on the dots.

Research Output 2018 2019

  • 3 Journal article
2 Citations (Scopus)

A benchmark test for validating 3D simulation methods for delamination growth under quasi-static and fatigue loading

Carreras, L., Renart, J., Turon, A., Costa, J., Bak, B. L. V., Lindgaard, E., de la Escalera, F. M. & Essa, Y., 15 Feb 2019, In : Composite Structures. 210, p. 932 941 p.

Research output: Contribution to journalJournal articleResearchpeer-review

1 Citation (Scopus)

An evaluation of mode-decomposed energy release rates for arbitrarily shaped delamination fronts using cohesive elements

Carreras, L., Lindgaard, E., Renart, J., Bak, B. L. V. & Turon, A., 2019, In : Computer Methods in Applied Mechanics and Engineering. 347, p. 218-237

Research output: Contribution to journalJournal articleResearchpeer-review

5 Citations (Scopus)

Point-wise evaluation of the growth driving direction for arbitrarily shaped delamination fronts using cohesive elements

Carreras, L., Bak, B. L. V., Turon, A., Renart, J. & Lindgaard, E., 1 Nov 2018, In : European Journal of Mechanics, A/Solids. 72, p. 464-482 19 p.

Research output: Contribution to journalJournal articleResearchpeer-review

Subroutines
Delamination
evaluation
Processing
damage

Datasets

Data set from a 3D benchmark simulation of delamination in layered structures under quasi-static and fatigue loading

Carreras, L. (Creator), Turon, A. (Creator), Bak, B. L. V. (Creator), Lindgaard, E. (Creator), Renart, J. (Creator), de la Escalera, F. M. (Creator), Essa, Y. (Creator), Mendeley Data, 13 Dec 2018

Dataset

Experimental data set from a benchmark test of delamination growth with varying crack growth rate and crack front shape under quasi-static and fatigue loading

Carreras, L. (Creator), Renart, J. (Creator), Turon, A. (Creator), Costa, J. (Creator), Bak, B. L. V. (Creator), Lindgaard, E. (Creator), de la Escalera, F. M. (Creator), Essa, Y. (Creator), Mendeley Data, 29 Oct 2018

Dataset