Numerical and Experimental Investigation of Wrinkling Pattern for Aerospace Laminated Membrane Structures

Author:

Hong Yihong12,Yao Wenjuan1ORCID,Xu Yan3ORCID

Affiliation:

1. Department of Civil Engineering, Shanghai University, Shanghai 200072, China

2. School of Architectural Engineering, Quzhou University, Zhejiang 324000, China

3. School of Aeronautics and Astronautics, Zhejiang University, Hangzhou 310027, China

Abstract

Al-polymer laminated membranes are widely used in large aerospace structures. When the laminated membranes are pressurized, wrinkles emerge, which have an important effect on the performance of the structures during operation. This paper describes the numerical simulation and experimental investigation of wrinkles in laminated membranes. The nonlinear postbuckling analysis method, based on laminated thin-shell elements, was used to simulate the onset, growth, and final configuration of wrinkles when laminated membranes are subjected to external loads. The simulations are conducted with the ANSYS finite element package. Changing regularities of number, wavelength, and range for the wrinkles during the onset and growth processes are investigated. The wrinkles of laminated membranes with different design parameters such as material selection, ply number, ply angle, and ply mode are predicted. Devices that can be used to clamp and load laminated membranes in several load cases were designed and developed. A 3D photogrammetry system was constructed to characterize wrinkling patterns of laminated membranes subjected to shear displacement loads. By comparing the results of numerical analysis and experimental results, the accuracy of the numerical analysis method was verified. This study work is expected to inform wrinkling simulation and shape control of aerospace laminated membrane structures.

Funder

National Natural Science Foundation of China

Publisher

Hindawi Limited

Subject

Aerospace Engineering

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1. Effect of Wrinkling on the Bearing Capacity of Inflated ETFE Membranes;Journal of the International Association for Shell and Spatial Structures;2024-03-01

2. Investigation of wrinkling behaviour in the creased thin-film laminates;International Journal of Mechanics and Materials in Design;2021-07-02

3. Nonlinear vibration of a moving flexible printed electron web under multiphysics dynamics;AIP Advances;2021-07-01

4. Numerical analysis of dynamic properties of wrinkled thin membranes;Engineering Computations;2020-04-08

5. Numerical analysis of the wrinkling behavior of thin membranes;Archive of Applied Mechanics;2019-07-19

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