Fire barrier based on expanded perlite composites

The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019) Pub Date : 2019-12-03 DOI:10.3846/mbmst.2019.047

R. Kusiorowski, J. Witek, I. Majchrowicz, Andrzej Kleta, A. Jirsa-Ociepa

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Abstract

Decreased strength of building materials as a result of flame impingement (e.g. during a fire) is one of major threats in the construction branch. For these reasons, the effectiveness of fire safety systems in various kinds of facilities or structures is extremely important. One of the determinants of this effectiveness is so-called fire insulation, i.e. time expressed in minutes after which an increase in the temperature of a protected structure or facility exceeds a certain admissible value (140 °C). The results of investigations presented in the article concern the determination of the effect of various mineral binders used in the manufacture of insulation boards from expanded perlite on fire resistance and, in consequence, on extending the time of fire insulation in the conditions of cellulose and hydrocarbon fire. The conducted research has revealed that the fire resistance of perlite products can be modelled by selecting adequate mineral binders, with respect to specific applications and economic considerations. Insulation boards based on expanded perlite – depending on the binder used – were characterized by a fire insulation ranging (with a board thickness of 50 mm) from 50 to 100 minutes in the conditions of cellulose fire and from 20 to 30 minutes in the conditions of hydrocarbon fire.

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基于膨胀珍珠岩复合材料的防火屏障

由于火焰撞击(例如在火灾期间)导致建筑材料强度下降是建筑部门的主要威胁之一。由于这些原因，各种设施或结构的消防安全系统的有效性是极其重要的。这种有效性的决定因素之一是所谓的防火隔热，即以分钟表示的时间，在此之后，受保护结构或设施的温度升高超过一定的允许值(140°C)。文章中提出的调查结果涉及测定在用膨胀珍珠岩制造绝缘板时使用的各种矿物粘合剂对耐火性能的影响，以及在纤维素和碳氢化合物火灾条件下延长绝缘时间的影响。所进行的研究表明，珍珠岩产品的耐火性可以通过选择适当的矿物粘合剂来模拟，考虑到特定的应用和经济因素。基于膨胀珍珠岩的保温板——取决于所使用的粘结剂——其特点是在纤维素燃烧条件下保温50至100分钟，在碳氢化合物燃烧条件下保温20至30分钟(板厚度为50毫米)。

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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The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019)

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