Fire performance of hybrid mass timber beam-end connections with perpendicular-to-wood grain reinforcement

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
Oluwamuyiwa Okunrounmu, O. Salem, G. Hadjisophocleous
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Abstract

PurposeThe fire resistance of timber structures is heavily dependent on the fire behaviour of the connections between its structural elements. The experimental study presented in this paper aimed to investigate the fire performance of glued-laminated timber beam connections reinforced perpendicular-to-wood grain with self-tapping screws (STS).Design/methodology/approachTwo full-size fire experiments were conducted on glulam beam-end connections loaded in flexure bending. Two connection configurations, each utilizing four steel bolts arranged in two different patterns, were reinforced perpendicular to wood grain using STS. The bolt heads and nuts and the steel plate top and bottom edges were fire protected using wood plugs and strips, respectively. Each connection configuration was loaded to 100% of the ultimate design load of the weakest unreinforced configuration. The test assemblies were exposed to elevated temperatures that followed the CAN/ULC-S101 standard fire time–temperature curve.FindingsThe experimental results show that the influence of the STS was significant as it prevented the occurrence of wood splitting and row shear-out and as a result, increased the fire resistance time of the connections. The time to failure of both connection configurations exceeded the minimum fire resistance rating specified as 45 min for combustible construction in applicable building codes.Originality/valueThe experimental data show the effectiveness of a simple fire protection system (i.e. wood plugs and strips) along with the utilization of STS on the rotational behaviour, charring rate, fire resistance time and failure mode of the proposed hybrid mass timber beam-end connection configurations.
垂直木纹加固混合大质量木梁端连接的防火性能
目的木结构的耐火性能在很大程度上取决于其结构元件之间连接的防火性能。本文的实验研究旨在研究自攻螺钉垂直于木纹加固的胶合层合木梁连接的防火性能。设计/方法/方法对弯曲加载的胶合木梁端接进行了两次全尺寸火灾实验。两种连接配置,每种配置使用四个钢螺栓,以两种不同的模式排列,使用STS垂直于木纹进行加固。螺栓头和螺母以及钢板顶部和底部边缘分别使用木塞和板条进行防火保护。每个连接配置都被加载到最弱的未加固配置的极限设计载荷的100%。测试组件暴露在符合CAN/ULC-101标准着火时间-温度曲线的高温下。实验结果表明,STS的影响是显著的,因为它防止了木材劈裂和排剪切的发生,从而增加了连接的耐火时间。两种连接配置的失效时间都超过了适用建筑规范中规定的可燃结构的最小耐火等级45分钟。独创性/价值实验数据表明,简单的防火系统(即木塞和板条)以及STS的使用对所提出的混合质量木材梁端接配置的旋转行为、炭化率、耐火时间和失效模式的有效性。
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来源期刊
Journal of Structural Fire Engineering
Journal of Structural Fire Engineering CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
2.20
自引率
10.00%
发文量
28
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