Attempt at Quantification of Surface Degradation and Evaluation of Relationship between Outdoor and Accelerated Exposure of Construction Sealants

N. Enomoto, A. Ito, Kyoji Tanaka
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引用次数: 1

Abstract

The weatherability of construction sealants is a highly important performance criterion for the prediction of their service lives. Currently, the evaluation of a sealant’s surface weatherability is carried out mainly via qualitative visual judgment. One objective of this paper is to establish a quantitative method for the assessment of surface degradation. A further objective is the evaluation of the relationship between outdoor and accelerated exposure with regard to surface degradation. The understanding of this relationship is important for the shortening of the development cycle and the prediction of a sealant’s service life. The paper presents information on the weatherability of construction sealants based on a recently developed test specimen design that allows simultaneous exposure of the sealant to forced compression and extension movement in a single specimen with cyclic movement and weathering carried out simultaneously. A quantitative method for the assessment of surface cracks is employed, and the relationship between outdoor and accelerated weathering exposure is evaluated by using metrics that indicate the degree of surface cracking as a new semi-quantitative criterion of surface degradation.
建筑密封胶表面降解的量化及户外与加速暴露关系的评估
建筑密封胶的耐候性是预测其使用寿命的一个非常重要的性能指标。目前,对密封胶表面耐候性的评价主要是通过定性的视觉判断来进行的。本文的目的之一是建立一种评估表面降解的定量方法。另一个目标是评价室外照射和加速照射在表面退化方面的关系。了解这种关系对于缩短开发周期和预测密封胶的使用寿命非常重要。本文介绍了基于最近开发的试件设计的建筑密封胶耐候性的信息,该设计允许密封胶在单个试件中同时暴露于强制压缩和拉伸运动中,同时进行循环运动和风化。采用了一种定量的方法来评估表面裂纹,并通过使用表明表面裂纹程度的度量来评估室外和加速风化暴露之间的关系,这是一种新的表面退化半定量准则。
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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