石膏板吊顶隔板面内性能的试验研究

IF 0.8 Q4 ENGINEERING, GEOLOGICAL
Angela Liu, Minghao Li, R. Shelton
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引用次数: 4

摘要

本研究的最终目标是开发一个代表石膏板天花板隔板平面内性能的模型,作为新西兰低层轻质木框架(LTF)住宅基于性能的抗震工程的一部分。新西兰LTF住宅楼是根据NZS 3604木框架建筑规范标准[1]建造的。关于抗震系统,按照NZS3604建造的LTF建筑在平面图中通常具有不规则的支撑布置。坎特伯雷地震后对LTF建筑的损坏调查显示,结构不规则(计划中不规则的支撑布置)显著加剧了LTF建筑在地震中的损坏。当建筑物具有不规则的支撑布置时,建筑物在地震中不仅会产生平移偏转,还会产生扭转反应。如何有效地解决诱导扭转取决于地板/屋顶隔板的刚度。新西兰LTF建筑的天花板和地板隔板的施工细节与世界其他地方不同,而且似乎没有关于新西兰典型做法的木材隔板的信息。本文介绍了在新西兰住宅实践中对石膏板天花板隔板进行的实验研究。根据试验结果,建立了一个模拟石膏板天花板隔板平面内刚度的数学模型,该模型的格式与刘[2]的一篇论文中提出的石膏板支撑墙单元的格式相似。利用这两个模型,可以对LTF建筑进行三维非线性推覆研究,以计算不规则LTF建筑的抗震性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental studies on in-plane performance of plasterboard sheathed ceiling diaphragms
The ultimate goal of this study is to develop a model representing the in-plane behaviour of plasterboard ceiling diaphragms, as part of the efforts towards performance-based seismic engineering of low-rise light timber-framed (LTF) residential buildings in New Zealand (NZ). LTF residential buildings in NZ are constructed according to a prescriptive standard – NZS 3604 Timber-framed buildings [1]. With regards to seismic resisting systems, LTF buildings constructed to NZS3604 often have irregular bracing arrangements within a floor plan. A damage survey of LTF buildings after the Canterbury earthquake revealed that structural irregularity (irregular bracing arrangement within a plan) significantly exacerbated the earthquake damage to LTF buildings. When a building has irregular bracing arrangements, the building will have not only translational deflections but also a torsional response in earthquakes. How effectively the induced torsion can be resolved depends on the stiffness of the floors/roof diaphragms. Ceiling and floor diaphragms in LTF buildings in NZ have different construction details from the rest of the world and there appears to be no information available on timber diaphragms typical of NZ practice. This paper presents experimental studies undertaken on plasterboard ceiling diaphragms as typical of NZ residential practice. Based on the test results, a mathematical model simulating the in-plane stiffness of plasterboard ceiling diaphragms was developed, and the developed model has a similar format to that of plasterboard bracing wall elements presented in an accompany paper by Liu [2]. With these two models, three-dimensional non-linear push-over studies of LTF buildings can be undertaken to calculate seismic performance of irregular LTF buildings.
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来源期刊
CiteScore
2.50
自引率
17.60%
发文量
14
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