Effects of Material Failure on Buckling Behaviour of Medium-Thick GFRP Cylindrical Shells for Submarine Applications

Three-Dimensional Effects in Composite and Sandwich Structures Pub Date : 2001-11-11 DOI:10.1115/imece2001/amd-25419

V. Carvelli, N. Panzeri, C. Poggi

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引用次数: 1

Abstract

The paper is concerned with the interaction of buckling and material failure in composite cylindrical shells subject to external pressure. A methodology for the numerical prediction of the strength of composite shells is discussed and an application is presented. The results of an experimental and numerical research on a composite shell structure, intended as a model for an under-water vehicle for service in deep-sea environment, are recalled. It is showed how a reasonable prediction of the buckling pressure can be obtained only including the effects of the geometric imperfections. The validated finite element model is then adopted for a parametric study on the influence of the thickness variation on the failure behaviour of cylinders. A well-known failure criteria for composite laminates (Tsai-Wu) is introduced in the model to study the interaction between buckling and material failure in composite cylinders subject to hydrostatic pressure. The values of the pressure obtained with linear buckling, first-ply and progressive failure analysis with or without geometric effects are discussed for a specific composite cylinder.

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材料失效对潜艇用中厚玻璃钢圆柱壳屈曲行为的影响

本文研究了外压作用下复合材料圆柱壳的屈曲与材料破坏的相互作用。讨论了复合材料壳体强度的数值预测方法，并给出了应用实例。回顾了一种复合壳体结构的实验和数值研究结果，该结构旨在作为深海环境中服役的水下航行器的模型。说明了如何在不考虑几何缺陷影响的情况下对屈曲压力进行合理的预测。采用验证的有限元模型，对厚度变化对柱体破坏行为的影响进行了参数化研究。在模型中引入了复合材料层合板的著名破坏准则(Tsai-Wu)，研究了静水压力下复合材料圆柱体屈曲与材料破坏之间的相互作用。讨论了考虑或不考虑几何效应的复合材料圆柱体的线性屈曲、首层和渐进式失效分析的压力值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Three-Dimensional Effects in Composite and Sandwich Structures

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