地震细节对后张木结构防火性能的影响

IF 0.8 Q4 ENGINEERING, GEOLOGICAL
P. Horne, A. Palermo, A. Abu, P. Moss
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引用次数: 1

摘要

后张拉木材(PTT)框架与传统木结构系统相比具有显著的优势,特别是在需要低损伤设计和快速施工的情况下。新西兰设计防火木结构的从业人员习惯于根据NZS 3603或AS/NZS 1720.4的标准火灾暴露时间,将环境设计方法应用于减少焦炭深度的元素横截面。PTT框架在火灾中的行为仍然是一个值得关注的问题,因为这种方法没有考虑到PTT连接的实际力学和框架在结构中发生自然火灾时的响应。本文研究了PTT连接组件(肌腱,耗散器,紧固件等)对火灾的单独和相互依存的响应。结果表明,仅使用木材构件的炭化截面,不能将PTT连接环境分析工具——修正整体梁类比法应用于火灾情况。这种将环境方法与减小截面相结合的方法并没有考虑到具体的连接细节,这导致了火灾中可能影响结构响应的独特损害。使用该方法预测了两个地震详细PTT连接的响应,并将其与连接行为的第一性原理评估进行了比较,以证明破坏将比其他预测更早发生。这两种连接的数值热分析也定性地证实了所发生的损伤。这项调查表明,在开发设计方法之前,需要进行更多的研究,以了解这些连接在暴露于火灾时的复杂行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implications of Siesmic Detailing on the Fire Performance of Post-Tensioned Timber Frames
Post-Tensioned Timber (PTT) frames have significant advantages over traditional timber frame systems especially where a low damage design and fast construction are desired. New Zealand practitioners designing timber structures for fire are accustomed to applying ambient design methods to an element cross-section reduced by a char depth based on a duration of Standard Fire exposure following NZS 3603 or AS/NZS 1720.4. The behaviour of PTT frames in fire remains a concern because this approach does not account for the actual mechanics of PTT connection and frame response under natural fires that will occur in the structure. This paper examines the individual and interdependent response of PTT connection components (tendon, dissipater, fasteners, etc) to fire. It is shown that the ambient analysis tool for PTT connections, the Modified Monolithic Beam Analogy, cannot be applied to the fire case by only using char reduced cross-sections of timber elements. This approach of combining ambient methodologies with reduced cross-sections does not account for the specific connection detailing, which result in unique damage in fire that may govern the structural response. The responses of two seismically detailed PTT connections are predicted using this approach and compared to a first principles assessment of connection behaviour to demonstrate that failure will occur earlier than otherwise predicted. Numerical thermal analyses of these two connections also qualitatively corroborate the damage that occurs. This investigation establishes that additional studies are required to understand the complex behaviour of these connections when exposed to fire before a design methodology can be developed.
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来源期刊
CiteScore
2.50
自引率
17.60%
发文量
14
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