4.7 Article

Robust improvement of the asymmetric post-buckling behavior of a composite panel by perturbing fiber paths

Journal

COMPOSITE STRUCTURES
Volume 270, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.compstruct.2021.114011

Keywords

Random field; Robust design; Fiber misalignment; Buckling; Composites; Steered fiber path

Funding

  1. European Union Horizon 2020 Research and Innovation program under the Marie SkodowskaCurie grant [642121]

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The sensitivity of buckling behavior in structures to imperfections, particularly fiber misalignments in composite structures, is addressed in this paper using random field analysis. By quantifying the effects of misalignments and making small changes to the local fiber orientation, the structure's performance can be improved and its robustness to misalignments increased. Stochastic analyses show an overall increase in buckling load and a reduction in variability, demonstrating the effectiveness of the approach in enhancing structural performance.
The buckling behavior of structures is highly sensitive to imperfections, i.e., deviations from the geometry and material properties of the ideal structure. In this paper, an approach is presented in which the effects of spatially varying fiber misalignments in composite structures are assessed through random field analysis and are subsequently used to improve the structure while simultaneously making it more robust to fiber misalignments. Effects of misalignments are quantified by applying random fields on the structure, which represent fiber misalignments. Using analyses of the effect of the random local stiffness changes due to fiber misalignments, a pattern of the relative influence these local changes have on the buckling load is created. By applying a small change to local fiber orientation corresponding to this pattern to the original structure, the performance of the design is improved. Additional stochastic analyses are performed using the improved design, reanalyzing the effects local fiber misalignments have on the structural performance and the subsequent changes in robustness. Stochastic results show an overall increase in the mean buckling load and a reduction in the coefficient of variation in the analysis of the perturbed structure. The approach is applied to a composite panel exhibiting asymmetric post-buckling behavior, i.e., having an unstable post-buckling branch and an (initially) stable branch. Results show that perturbations in the fiber path can nudge a structure into a more stable postbuckling path by promoting a post-buckling path using local changes in structural stiffness. The robustness of improved designs can also increase, making structures less susceptible to local fiber misalignments.

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