Data set from a 3D benchmark simulation of delamination in layered structures under quasi-static and fatigue loading
Description of this data
This data repository provides the processed data obtained from the benchmark simulation using the method presented in the article entitled "A simulation method for 3D analysis of delamination in layered structures under quasi-static and fatigue loading" by the same authors. The method is based on a cohesive zone model approach and a Paris' law-based expression describing the crack growth rate. The capabilities of the method are evaluated by comparison of the results obtained from a benchmark test on a partially reinforced double cantilever beam (DCB) specimen with varying crack growth rate and front shape. The experimental work is presented in the article entitled "A benchmark test for validating 3D simulation methods for delamination growth under quasi-static and fatigue loading". Experimental data is provided in the Mendeley data set entitled "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". This data set only contains the simulation results.
The test configuration, the methodology and the data processing are addressed in the related articles.
Experiment data files
Fatigue 3D simulation
Crack front position (figures 10 and 11)
Displacement vs force (Figure 9)
Cite this dataset
Carreras, Laura; Turon, Albert; Bak, Brian Lau Verndal; Lindgaard, Esben; Renart, Jordi; Martin de la Escalera, Federico; Essa, Yasser (2018), “Data set from a 3D benchmark simulation of delamination in layered structures under quasi-static and fatigue loading”, Mendeley Data, v1 http://dx.doi.org/10.17632/87r49xbrp3.1
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The files associated with this dataset are licensed under a Creative Commons Attribution 4.0 International licence.