玻璃和太阳能工程中的粘接接头

B. Weller, I. Vogt
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引用次数: 3

摘要

过去100年建筑的特点是渴望更大的透明度。不可避免地,这与建筑围护结构中不断增长的玻璃比例密切相关。但是由于玻璃的易碎性,只有有限的选择可以将经过试验和测试的连接方法(来源于钢结构和其他工程学科)转移到这种材料上。然而,粘合接头更适合于在玻璃组件之间创建材料粘合。近年来,用于承载玻璃构件的结构胶接头一直是欧洲各国研究和开发工作的主题。本文将介绍其中的一些工作。该研究促进了玻璃-玻璃和玻璃-金属连接的实用粘接接头的发展。这项工作包括研究表面预处理和老化情况,以便在实践中遇到的拉伸和剪切载荷的应用类型可以指定。材料试样在不同的加载速率和温度下测试,使材料参数得以确定。为了改进玻璃金属连接的原位测试,采用了一种带有胶合对接接头的扭转试件。粘接接头在结构玻璃和太阳能技术中有许多潜在的应用,包括:用于顶置玻璃和承受高环境载荷的超大光伏组件的点粘接接头,用于延展性良好的混合钢-玻璃复合梁的线性粘接接头,以及用于最小化钢-玻璃立面中减少截面的玻璃翼片的线性粘接接头。或用于悬挂在通风腔前的光伏幕墙的全粘接接头,以及用于全玻璃展馆的全透明承重粘接接头(在德国首次批准应用)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adhesive Joints in Glass and Solar Engineering
The architecture of the past 100 years is characterized by a desire for ever greater transparency. Inevitably, that goes hand in hand with a constantly growing proportion of glass in the building envelope. But owing to the brittle nature of glass, there are only limited options for transferring tried-and-tested methods of jointing—derived from structural steelwork and other engineering disciplines—to this material. However, adhesive joints are much more suited to creating a material bond between glass components. Structural adhesive joints for load bearing glass components have been the subject of research and development work all over Europe in recent years. This article looks at some of that work. The research has led to the development of practical adhesive joints for glass-glass and glass-metal connections. The work includes the study of surface pretreatments and aging scenarios so that types of application for the tensile and shear loads encountered in practice can be specified. Material specimens tested at various load application rates and temperatures enable the material parameters to be determined. A torsion specimen with a glued butt joint is being used to improve the in situ testing of glass-metal connections. There are plenty of potential applications for adhesive joints in structural glazing and solar technology, including the following: Point adhesive joints for overhead glazing and for oversize photovoltaic modules subjected to high environmental loads, linear adhesive joints for hybrid steel-glass composite beams with good ductility and for glass fins with a reduced cross-section in minimized steel-and-glass facades, or full-bond adhesive joints for photovoltaic facades suspended in front of a ventilation cavity and for fully transparent load bearing adhesive joints to an all-glass pavilion (first approved application in Germany).
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