管道系统支撑组件的单调测试及容量设计考虑因素

Muhammad Rashid, Rajesh Dhakal, Timothy Sullivan
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引用次数: 0

摘要

分布式非结构构件(NSE),如管道系统,使用专有或定制设计的支撑来抵御地震作用。制造商出版的组件手册中提供了这些元件的强度,但没有关于其变形能力的信息。之前关于 NSE 抗震性能的研究提供了几种计算方法,通过依靠其抗震约束的延展能力来计算可能减少的设计力。然而,设计人员在使用这些公式时需要对抗震约束装置的延性能力进行实际估算。本文讨论了单调拉伸和压缩荷载下支撑组件行为的测试结果。测试结果用于确定测试支撑组件的潜在失效模式,并量化其延性能力。此外,本文还介绍了一些设计实例,以强调在设计支撑组件及其锚固件时使用承载能力设计原则的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monotonic testing of brace assemblies for piping systems and considerations for capacity design
Distributed nonstructural elements (NSEs), such as piping systems, are restrained against seismic actions using proprietary or, at times, custom-designed braces. The strengths of these elements are provided in the component brochures published by the manufacturers, with no information on their deformation capacities. Previous research on the seismic performance of NSEs provide several formulations to calculate possible reductions in design force by relying on ductility capacity of their seismic restraints. However, designers require a realistic estimate of the ductility capacity of the seismic restraints to use these formulations. This paper discusses the results of a test program on the behavior of brace assemblies under monotonic tensile and compression loading. The results are used to identify the potential failure modes of the tested brace assemblies and to quantify their ductility capacity. Further, design examples are presented to highlight the need for the use of capacity design principles in the design of brace assemblies and their anchors.
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