A Systematic Approach to the Study of Accelerated Weathering of Building Joint Sealants

C. White, D. Hunston, K. Tan, J. Filliben, A. Pintar, G. Schueneman
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引用次数: 15

Abstract

An accurate service life prediction model is needed for building joint sealants in order to greatly reduce the time to market of a new product and reduce the risk of introducing a poorly performing product into the marketplace. A stepping stone to the success of this effort is the precise control of environmental variables in a laboratory accelerated test apparatus in order to produce reliable weathering data that can be used to generate a predictive model. This contribution reports a systematic study, using a novel laboratory test apparatus, investigating the individual and synergistic impacts of four environmental factors (cyclic movement, temperature, relative humidity, and ultraviolet radiation) on the durability of a sealant system. The apparatus used is unique because it not only allows the precise control of environmental factors but also permits in situ characterization tests so that the specimens need not be removed from the apparatus chamber. Graphical and quantitative statistical approaches have been used to analyze the data. The study shows that the critical role of each individual factor, as well as synergism among the different factors, can be readily quantified, and modes of degradation possibly can be identified.
建筑接缝密封胶加速老化的系统研究
为了大大缩短新产品的上市时间,并降低将性能不佳的产品引入市场的风险,建筑接缝密封胶需要一个准确的使用寿命预测模型。这一努力成功的一个基石是在实验室加速测试装置中精确控制环境变量,以产生可靠的风化数据,这些数据可用于生成预测模型。这篇文章报道了一项系统的研究,使用一种新的实验室测试设备,调查了四个环境因素(循环运动、温度、相对湿度和紫外线辐射)对密封胶系统耐久性的单独和协同影响。所使用的仪器是独一无二的,因为它不仅可以精确控制环境因素,而且还允许现场特性测试,因此不需要从仪器室中取出样品。已使用图形和定量统计方法来分析数据。研究表明,每个单独因素的关键作用以及不同因素之间的协同作用可以很容易地量化,并且可以识别降解模式。
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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