Cylinders with a steel-concrete-steel wall to resist external pressure

Proceedings 12th international conference on Advances in Steel-Concrete Composite Structures - ASCCS 2018 Pub Date : 2018-06-05 DOI:10.4995/ASCCS2018.2018.7066

C. D. Goode, T. Nash

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Abstract

In the 1980’s Manchester University carried out over 110 tests on cylinders with a composite wall (steel-concrete-steel) subjected to external pressure as already reported in the literature. This paper describes further tests on 9 cylinders with a composite wall and a dome end subjected to external pressure and reports the results and compares them with theory. The cylinders were 500 mm diameter and 1250 mm long and four of them had penetrations through the cylinder wall. These tests were carried out under contract for Tecnomare SpA of Italy and have not been previously reported because of confidentiality reasons. The agreement between test behaviour, failure load and the theory developed at Manchester University is good. The philosophy for the design of such vessels for seabed structures is discussed and a ‘depth margin’ method proposed as it is a more realistic way of applying safety. Examples of designs for different depths are given and compared with the predicted failure pressure.

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钢质-混凝土-钢质壁以抵抗外部压力

在20世纪80年代，曼彻斯特大学对圆柱体进行了110多次试验，这些圆柱体带有复合壁(钢-混凝土-钢)，受到外部压力，这在文献中已经有报道。本文介绍了9个具有复合壁和圆顶端部的圆柱体在外部压力下的进一步试验，并报告了结果，并与理论进行了比较。这些圆柱体直径为500mm，长1250mm，其中四个圆柱体穿透了圆柱体壁。这些测试是根据意大利Tecnomare SpA公司的合同进行的，由于保密原因，以前没有报道过。试验行为、破坏载荷与曼彻斯特大学的理论吻合良好。讨论了这种用于海底结构的船舶的设计理念，并提出了“深度边际”方法，因为它是一种更现实的应用安全性的方法。给出了不同深度的设计实例，并与预测破坏压力进行了比较。

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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Proceedings 12th international conference on Advances in Steel-Concrete Composite Structures - ASCCS 2018

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