Monitoring of a Cold Roof Thatched with Reed (Phragmites australis) Using Wooden Substitute Sensors for Moisture Content Measurements

Restoration of Buildings and Monuments Pub Date : 2018-02-23 DOI:10.1515/rbm-2016-0004

C. Brischke, T. Bornemann, A. Rapp

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Abstract

Abstract Reed (Phragmites australis (Cav.) Trin. ex Steud.) is a traditional building material in many parts of the world and provides service lives of more than 50 years when used for thatching. However, during the last decades a significant number of thatched roofs showed premature failure due to decay. Potential reasons for this are manifold but not clearly identified, yet. This monitoring project aimed therefore on investigating the moisture and temperature conditions within a thatched roof structure showing severe degradation after only seven years in service to obtain more information about the decay risk of reed and its potential causes. Highest moisture loads were found on the outermost layers of the North-faced roof, which also showed superficial growth of algae, lichens, and mosses. However, it stayed unclear if increased moisture content (MC) was the reason for or the consequence of decay. An increased MC was also found where the roof pitch turned from steep to flat. The use of so-called substitute sensors made from preservative treated wood turned out as a useful method to determine equilibrium moisture contents as well as time of wetness in reed structures and might be applied also for further field testing and monitoring with reed, straw, or other organic fibrous materials.

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用木质替代传感器监测芦苇冷茅草屋顶的水分含量

芦苇(Phragmites australis, Cav.)指标。)是世界上许多地方的传统建筑材料，用于茅草屋顶的使用寿命超过50年。然而，在过去的几十年里，由于腐烂，大量的茅草屋顶出现了过早的破坏。造成这种情况的潜在原因是多方面的，但还没有被清楚地识别出来。因此，该监测项目旨在调查一个茅草屋顶结构的湿度和温度条件，该茅草屋顶结构在使用仅七年后就出现严重退化，以获得更多关于芦苇腐烂风险及其潜在原因的信息。在朝北的屋顶的最外层发现了最高的水分负荷，表面也生长着藻类、地衣和苔藓。然而，尚不清楚水分含量的增加是腐烂的原因还是后果。当屋顶坡度从陡峭变为平坦时，MC也增加了。用防腐剂处理过的木材制成的所谓的替代传感器被证明是确定芦苇结构中平衡水分含量和湿润时间的有用方法，也可以应用于芦苇、稻草或其他有机纤维材料的进一步现场测试和监测。

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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Restoration of Buildings and Monuments

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