Influence of the heat insulation layer on the thermally stressed condition of the facade wall

IF 1.9 Q3 ENGINEERING, INDUSTRIAL

Production Engineering Archives Pub Date : 2022-05-19 DOI:10.30657/pea.2022.28.14

B. Basok, B. Davydenko, H. Koshlak, O. Lysenko

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引用次数: 1

Abstract

Abstract The temperature-stress state of the concrete facade wall with a window opening, which is the external enclosing structure of the room with a steel heating device, was investigated by the method of numerical modeling. Estimated studies were performed for winter period when the heating system of the building is functioning. According to the results of solving the system of equations of thermal stress and equation of thermal conductivity, the temperature distribution over the wall volume and distribution of normal and tangential stresses were determined. Areas of the wall where these stresses are maximum were identified. The research was performed for cases of both, absence and presence of a heat-insulating layer on the outer surface of the facade wall. From comparison of the results obtained for these two options, it follows that the external thermal insulation coating not only helps to reduce dissipative heat loss through the facade wall, but also reduces the absolute values of stresses in the concrete wall arising resulting from temperature deformations. In some cases, the sign of stresses changes from stretching (wall without external insulation) to compressive (wall with insulation).

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保温层对外墙热应力状态的影响

摘要采用数值模拟的方法，对带钢加热装置房间的外围结构——带开窗混凝土外立面的温度应力状态进行了研究。估计研究是在冬季进行的，当时建筑物的供暖系统还在运行。根据热应力方程组和导热方程的求解结果，确定了壁面体积上的温度分布以及法向和切向应力的分布。确定了这些应力最大的墙壁区域。该研究是针对外立面上没有隔热层和存在隔热层的情况进行的。通过比较这两种方案得到的结果，可以得出结论，外保温涂层不仅有助于减少通过外墙的散热量损失，而且还可以减少混凝土墙中由于温度变形而产生的应力绝对值。在某些情况下，应力的标志从拉伸(无外保温的墙)变为压缩(有外保温的墙)。

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

Production Engineering Archives Engineering-Industrial and Manufacturing Engineering

CiteScore

6.10

自引率

13.00%

发文量

审稿时长

6 weeks