Experimental investigation on the post-fire mechanical properties and charring rate of inorganic-bonded bamboo composite exposed to fire

IF 3.4 3区 工程技术 Q2 ENGINEERING, CIVIL
Xin Zhang , Yu Gong , Ernian Zhao , Qi Song , Shuming Li , Qiaoling Liu
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引用次数: 0

Abstract

The fire resistance remains a challenging topic for engineered wood and bamboo structures due to the combustibility of wood and bamboo and the usage of organic adhesives, which are temperature-sensitive substance in fire. As an alternative solution, this paper investigated a novel bamboo-based composite prepared with magnesium oxysulfide inorganic adhesive (inorganic-bonded bamboo composite, InorgBam), and the fire tests were carried out to investigate the post-fire mechanical properties and charring behavior of InorgBam. The reduction effect of fire exposure on compressive or tensile strength parallel-to-grain was experimentally studied. The effects of fire exposure surface numbers, grain direction, geometric dimension and exposure time on charring rate were discussed. Results showed that the InorgBam can be maintained the post-fire strength under compressive or tensile loads parallel to grain without significant degradation when the exposure temperature below 250 °C. The temperature of the char front was determined to be approximate 350°C by using an interpolation method. The charring rate was mainly dominated by the exposure time and decreases nonlinearly with the increase of exposure time, and the charring rate with multi-sided fire exposure was approximately 1.1 times of that exposed to one-sided fire. Finally, a nonlinear model was proposed to predict the charring rate of InorgBam material, which provides a basic reference for understanding the fire resistance of InorgBam material exposed to fire.

无机结合竹复合材料受火后力学性能和炭化率的实验研究
由于木材和竹子的可燃性以及有机粘合剂的使用,木竹结构的耐火性仍然是一个具有挑战性的课题。作为一种替代解决方案,本文研究了一种用氧化镁无机粘合剂制备的新型竹基复合材料(无机粘合竹基复合材料,InorgBam),并进行了火灾试验,以研究 InorgBam 的火后力学性能和炭化行为。实验研究了火灾暴露对平行于纹理的抗压或抗拉强度的降低效应。还讨论了火曝表面数、晶粒方向、几何尺寸和曝晒时间对炭化率的影响。结果表明,当暴露温度低于 250 ° C 时,InorgBam 在平行于晶粒的压缩或拉伸载荷作用下可保持火后强度,而不会出现明显降低。采用内插法确定的炭化前沿温度约为 350 ℃。炭化率主要受暴露时间的影响,并随暴露时间的增加呈非线性下降,多面着火暴露的炭化率约为单面着火暴露的 1.1 倍。最后,提出了预测 InorgBam 材料炭化率的非线性模型,为了解 InorgBam 材料的耐火性能提供了基本参考。
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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来源期刊
Fire Safety Journal
Fire Safety Journal 工程技术-材料科学:综合
CiteScore
5.70
自引率
9.70%
发文量
153
审稿时长
60 days
期刊介绍: Fire Safety Journal is the leading publication dealing with all aspects of fire safety engineering. Its scope is purposefully wide, as it is deemed important to encourage papers from all sources within this multidisciplinary subject, thus providing a forum for its further development as a distinct engineering discipline. This is an essential step towards gaining a status equal to that enjoyed by the other engineering disciplines.
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