建筑玻璃棉隔热材料的热物理特性:实验结果及适用技术综述

L. Marmoret
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引用次数: 1

摘要

需要对建筑材料的热物理性能进行实验测定,以弥合理论预测与建筑实际性能之间的差距。很少有文献在同一出版物中介绍绝缘材料的结构、水力和热性能。本研究旨在确定两种玻璃棉的主要热物理特性。由于其结构形态,本出版物还希望审查适应良好的实验技术。利用扫描电子显微镜(SEM)在微观尺度上对纤维间隙(孔隙)和纤维进行了研究。然后通过耦合SEM和EDX检测器来显示纤维和粘合剂的化学成分。在宏观尺度上,介绍了纤维直径、孔半径、总孔隙率、比表面积和透气性等结构特征。然后研究了水力性能(如吸附等温线和蒸气渗透性)和热性能(电导率和扩散率)。给出了这些热物性参数之间的影响。将分析透气性和湿度对热的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermo-Physical Characteristics of Building Glass Wool Insulant: A Review of Experimental Results and Well-Adapted Techniques
There is need of experimental determination of thermo-physical properties of building materials to bridge the gap between theoretically prediction and real performance of buildings. Few references present structural, hydric and thermal properties of insulation materials in the same publication. This study aims to determine main thermo-physical characteritics of two glass wools. This publication wants also to review well-adapted experimental techniques because of their structural morphology. Inter-fiber space (pores) and fibers were studied by scanning electron microscope imaging (SEM) at the microscopic scale. The chemical composition of the fibers and binder will then be shown by coupling SEM to EDX detector. On macroscopic scale, the structural characteristics such as fiber diameter, the pore radius, total porosity, the surface area and the air permeability will be introduced. The hydraulic properties (such as sorption isotherm and vapor permeability) and thermal properties (conductivity and diffusivity) are then studied. Some influences between these thermo-physical parameters are presented. Relations between air permeability and humidity content against thermal will be analyzed.
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