Delamination growth in composite laminates of variable stiffness

authored by: Saleh Yazdani, Wilhelm J.H. Rust, Peter Wriggers
Abstract: The production of new composite laminates with variable stiffness within the surface of plies was enabled by tow-placement machines. Because of the variation of stiffness, these materials are called variable stiffness composite laminates (VSCL). Recently, many attempts were made to investigate their structural behaviour. In this contribution, a first-order shear deformation theory is selected to model the multilayered composite laminates. The adopted theory is enhanced by the extended finite element method (XFEM) to describe discontinuities at element level of any interface of interest. To predict the location of the delamination onset, a traction–separation law is developed that is consistent with the XFEM topology. An exponential softening behaviour is implemented within the interface to model the delamination growth in a mixed-mode direction. In order to solve the non-linear equations of the delamination propagation, an arc-length method is applied. The effect of the curvilinear fibre orientation on the location of the delamination onset is investigated. Subsequently, the structural response of the laminates is computed. According to the simplicity of the new approach using the XFEM; and based on the computational cost for calculating the stiffness of VSCL, the method is able to determine structural response of VSCL with less computational effort.
Organisation(s): Institute of Continuum Mechanics
External Organisation(s): University of Applied Sciences and Arts Hannover (HsH)
Type: Article
Journal: International Journal for Numerical Methods in Engineering
Volume: 108
Pages: 1406-1424
No. of pages: 19
ISSN: 0029-5981
Publication date: 11.04.2016
Publication status: Published
Peer reviewed: Yes
ASJC Scopus subject areas: Numerical Analysis, General Engineering, Applied Mathematics
Electronic version(s): https://doi.org/10.1002/nme.5264 (Access: Closed)
: Details in the research portal "Research@Leibniz University"

BibTeX

@article{4f4b5018abc14fc1b718c5085306244c,
title = "Delamination growth in composite laminates of variable stiffness",
abstract = "The production of new composite laminates with variable stiffness within the surface of plies was enabled by tow-placement machines. Because of the variation of stiffness, these materials are called variable stiffness composite laminates (VSCL). Recently, many attempts were made to investigate their structural behaviour. In this contribution, a first-order shear deformation theory is selected to model the multilayered composite laminates. The adopted theory is enhanced by the extended finite element method (XFEM) to describe discontinuities at element level of any interface of interest. To predict the location of the delamination onset, a traction–separation law is developed that is consistent with the XFEM topology. An exponential softening behaviour is implemented within the interface to model the delamination growth in a mixed-mode direction. In order to solve the non-linear equations of the delamination propagation, an arc-length method is applied. The effect of the curvilinear fibre orientation on the location of the delamination onset is investigated. Subsequently, the structural response of the laminates is computed. According to the simplicity of the new approach using the XFEM; and based on the computational cost for calculating the stiffness of VSCL, the method is able to determine structural response of VSCL with less computational effort.",
keywords = "cohesive, delamination, VSCL, XFEM",
author = "Saleh Yazdani and Rust, {Wilhelm J.H.} and Peter Wriggers",
year = "2016",
month = apr,
day = "11",
doi = "10.1002/nme.5264",
language = "English",
volume = "108",
pages = "1406--1424",
journal = "International Journal for Numerical Methods in Engineering",
issn = "0029-5981",
publisher = "John Wiley and Sons Ltd",
number = "11",
}