暴露于化学腐蚀环境中的胶凝材料的宽范围光学pH成像

Q2 Engineering
Bernhard J. Müller, C. Grengg, Viktor Schallert, Marlene Sakoparnig, Christoph Staudinger, Johanna Breininger, F. Mittermayr, B. Ungerböck, S. Borisov, M. Dietzel, T. Mayr
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引用次数: 10

摘要

混凝土基材料的pH值是评估其稳定性和耐久性的关键参数,因为pH值的变化通常与主要类型的化学降解有关,如碳酸化、浸出和酸侵蚀。传统的平面电位电极表面pH值测量具有较低的空间分辨率,而使用指示剂染料(酚酞)的光学pH值可视化只能显示pH值高于或低于指示剂pKa的区域。在这方面,开发宽范围成像系统是关键,它能够准确和空间分辨地确定pH变异性,从而获得降解机制的高级知识。这一贡献提出了基于荧光aza-BODIPY指示染料的高分辨率光学pH成像系统的增强。通过两种指示剂的组合,测量范围增加到6个pH单位(pH 6.5至pH 12.5)。此外,充分消除了背景散射效应。随着改进的传感器箔陡峭的pH梯度(高达3 pH单位在2毫米内)被成功地记录在各种混凝土样品使用微距镜头达到分辨率低至35 μ m每像素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wide-range optical pH imaging of cementitious materials exposed to chemically corrosive environments
The pH of concrete-based material is a key parameter for the assessment of its stability and durability, since a change in pH is usually associated with major types of chemical degradation such as carbonation, leaching and acid attacks. Conventional surface pH measurements with potentiometric flat surface electrodes have low spatial resolution, whereas optical pH visualization with indicator dyes (phenolphthalein) only indicates the areas with higher or lower pH than the pKa of the indicator. In this regard, it is key to develop wide-range imaging systems, enabling accurate and spatially resolved determination of pH variability for an advanced knowledge of degradation mechanisms. This contribution presents the enhancements made for a high-resolution optical pH imaging system based on fluorescent aza-BODIPY indicator dyes. The measurement range was increased to 6 pH units (pH 6.5 to pH 12.5) by a combination of two indicator dyes. Moreover, background scattering effects were sufficiently eliminated. With the improved sensor foils steep pH gradients (up to 3 pH units within 2 mm) were successfully recorded in various concrete specimens using a macro lens reaching a resolution of down to 35 µm per pixel.
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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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