Size Effect in Fracture of Sandwich Structure Components: Foam and Laminate

Three-Dimensional Effects in Composite and Sandwich Structures Pub Date : 2001-11-11 DOI:10.1115/imece2001/amd-25413

Z. Bažant, Yong Zhou, D. Novák, I. Daniel

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引用次数: 12

Abstract

In the design of sandwich plates and shells for very large structures, such as ships in the range of 100 m length, it is very important to take the size effect on the nominal strength into account, and do so in a realistic, physically justified, manner. Before the size effect is addressed for a sandwich structure, it must be understood for its components — the foam core and the laminate skins. In the current practice, the size effects are automatically attributed to the randomness of material strength, as described by the Weibull theory. The purpose of this paper is to show that in both the foam and the laminate there are deterministic size effects, which are generally more pronounced. They are caused by stress redistribution and energy release due to the growth of large fractures or large cracking zones prior to attaining the maximum load. This deterministic size effect is verified and calibrated by new tests of notched specimens of rigid close-cell vinyl foam. A combined deterministic-probabilistic theory of size effect of the laminates is proposed and verified by extensive test data.

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夹层结构构件断裂的尺寸效应:泡沫和层压板

在设计大型结构的夹层板和壳时，例如长度为100米的船舶，考虑尺寸对标称强度的影响是非常重要的，并且要以现实的、物理合理的方式来考虑。在解决三明治结构的尺寸效应之前，必须了解它的组成部分-泡沫芯和层压板表皮。在目前的实践中，尺寸效应自动归因于材料强度的随机性，正如威布尔理论所描述的那样。本文的目的是表明，在泡沫和层压板都有确定性的尺寸效应，这通常是更明显的。它们是由于在达到最大载荷之前，由于大裂缝或大裂纹区域的增长而产生的应力重分布和能量释放引起的。这种决定性的尺寸效应通过对刚性闭孔泡沫乙烯基缺口试样的新试验进行了验证和校准。提出了层合板尺寸效应的确定性-概率结合理论，并通过大量试验数据进行了验证。

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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