Comparing small displacement and large displacement formulations of the cohesive zone elements implemented for strong mode-II interfaces between low modulus bulk materials
datasetposted on 19.04.2022, 09:19 authored by Nanditha MudunuruNanditha Mudunuru
Raw data and code for finite element simulations of asymmetric double cantilever beam (ADCB) tests with varying thickness of the top ply presented in section 5.3 on MIXED-MODE TESTS WITH LOW MODULUS BULK of Master thesis titled Finite Element Model For Interfaces In Compatibilized Polymer Blends (http://resolver.tudelft.nl/uuid:88140513-120d-4a34-b893-b84908fe2373) to compare the influence of mode ratio on the difference between the small displacement and large displacement formulations of the cohesive zone elements
OrganizationsTU Delft, Faculty of Mechanical, Maritime and Materials Engineering (3mE)
Abaqus/CAEMode partitioning methodInterface characterizationMixed-mode characterizationStandardized testsCohesive zone elementblock copolymer interfacescrazinglarge deformation formulationAsymmetric Double Cantilever BeamADCBCollection: Data for mixed-mode characterization of large displacement formulation of the cohesive zone elements using standardized tests.