应用技术在高性能传统渲染中的作用

M. Stefanidou , F. Kesikidou , K. Antoniadis
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引用次数: 6

摘要

基于石灰的传统渲染具有美学和保护作用的历史砖石。为了确保与基材的良好附着力和凝聚力,同时也为了保证功能性,它们被层层应用。每一层的工艺根据骨料的最大粒径和粘结剂/骨料比的不同而不同。主要要求是高透气性、低保水以避免成盐、各层毛细向外增加吸水能力。由于水分在材料的热性能中起着不利的作用,人们已经努力记录分层对能量性能的影响。当采用不同的应用技术时,测试了基于石灰的渲染与其混合属性的关系。生成两层渲染图,每一层具有不同的技术特征。他们的行为,在各种劣化机制,如毛细,外部水分吸收(由卡斯滕管测量)和水蒸气渗透率进行监测。两层渲染既能获得较低的孔隙度和较好的渗透率,又能获得较好的导热性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Role of Application Techniques for High Performance Traditional Renders

Traditional renders based on lime had an aesthetic as well as a protective role for the historic masonry. They were applied in layers in order to ensure good adhesion and cohesion with the substrate but also in order to be functional. The technology of each layer was different in relation to the maximum grain size of the aggregates and the binder/aggregate ratio. Main requirements were the high water vapor permeability, the low water retention in order to avoid salt formation and the capacity of water absorption by capillarity of each layer should increase outwards. As moisture has a detrimental role in the thermal behavior of materials, an effort has been made to record the effect of layering in energy properties. Lime-based renders were tested in relation to their hybrid properties when different application techniques were followed. Two-layer renders with different technological characteristics in each layer were produced. Their behavior, in various deterioration mechanisms such as capillarity, external water uptake (measured by karsten tubes) and water vapor permeability was monitored. It seems that low porosity and adequate permeability is achieved in two-layer renders while the thermal conductivity was effective.

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