Stiffness and buckling analysis of variable stiffness laminates including the effect of automated fibre placement defects

Journal Article (2019)
Author(s)

Vibhas Mishra (Student TU Delft)

Daniël Peeters (TU Delft - Aerospace Manufacturing Technologies)

M. M. Abdalla (TU Delft - Aerospace Structures & Computational Mechanics)

Research Group
Aerospace Manufacturing Technologies
DOI related publication
https://doi.org/10.1016/j.compstruct.2019.111233
More Info
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Publication Year
2019
Language
English
Research Group
Aerospace Manufacturing Technologies
Volume number
226

Abstract

Composite materials are finding increasing application, for example in commercial aircraft. Traditionally fiber angles are constant in a single layer. Currently, so called variable stiffness panels with steered fibres, where the angle is changing within a layer are investigated. These panels are usually manufactured using automated fibre placement machines. Since the fibre angle is changing, and the tow paths are shifted as a whole in a single direction, gaps and/or overlaps between consecutive tows are created. This paper explores the effect of these gaps on the stiffness and buckling load of variable stiffness panels. A methodology is presented using homogenization to account for the gaps in a computational efficient way. The result shows that the stiffness results are on conservative side and are within 5% accuracy. However, the buckling results are on the unconservative side. The computational cost of the pre-processing of the proposed method is 45 times lower than the cost of the defect-ply method presented in the literature.

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