Abstract

A cohesive zone model (CZM) is proposed to assess the thickness scaling effect associated with fiber bridging during fracture. The CZM was developed through a multi-scale simulation approach and utilizes an embedded cell model of the Double Cantilever Beam (DCB) that explicitly accounts for the bridging bundles on the fracture plane. In particular, micromechanical simulations of failure were carried out, for varying arms thickness, in order to determine the homogenized fracture behavior. To model the observed scaling effect, the conventional cohesive law, formulated as an opening-stress relation, is enriched with information on the crack opening angle. Continuum finite element simulations indicated that the proposed CZM was able to mimic very well the essential features observed in the experiments, e.g. raising R-curve behavior and thickness scaling effect on the energy dissipated at steady state.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A modified mode I cohesive zone model for the delamination growth in DCB laminates with the effect of fiber bridging
Yu Gong ... Ning Hu
International Journal of Mechanical Sciences | VOL. 176
Yu Gong, et. al.Yu Gong ... Ning Hu
06 Feb 2020
Efficient modelling of forces and local strain evolution during delamination of composite laminates
Alessandro Airoldi ... Giuseppe Sala
Composites Part B: Engineering | VOL. 72
Alessandro Airoldi, et. al.Alessandro Airoldi ... Giuseppe Sala
13 Dec 2014
Finite element modeling of mode I fatigue delamination growth in composites under large-scale fiber bridging
F Teimouri ... F Haji Aboutalebi
Composite Structures | VOL. 263
F Teimouri, et. al.F Teimouri ... F Haji Aboutalebi
13 Feb 2021
Probabilistic Cohesive Zone Model to Capture Steady State Energy Release Rate Variations of DCB Specimens
Venkateswaran Shanmugam ... Stephen Clay
-
Venkateswaran Shanmugam, et. al.Venkateswaran Shanmugam ... Stephen Clay
23 Apr 2012
View more papers

More From: Composites Science and Technology

Paper Title
Journal
Date
Author
Tailoring the interfacial properties of glass fiber-epoxy microcomposites through the development of a self-healing poly(ϵ-caprolactone) coating
L Simonini ... A Pegoretti
Composites Science and Technology | VOL. 261
L Simonini, et. al.L Simonini ... A Pegoretti
02 Dec 2024
Mechanically robust porous polyimide films for piezoelectric sensing at extreme condition
Pengfei He ... Fei Liu
Composites Science and Technology | VOL. -
Pengfei He, et. al.Pengfei He ... Fei Liu
01 Dec 2024
Enhanced Electromagnetic Wave Absorption and Thermal Conductivity in Epoxy Composites with a Heterostructure-Rich 3D MoS₂/CMF Network Framework
Haoran Geng ... Guizhen Wang
Composites Science and Technology | VOL. -
Haoran Geng, et. al.Haoran Geng ... Guizhen Wang
01 Dec 2024
Biobased solvent-free fluids based on spherical cellulose nanocrystals for epoxy nanocomposite adhesive reinforcement
Nan Li ... Bo Jiang
Composites Science and Technology | VOL. -
Nan Li, et. al.Nan Li ... Bo Jiang
01 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.