Modelling the Influence of Hydrophobic Treatment on the Electrical Conductivity of Mortar and Brick

Kathrin A. Otten, K. Littmann, Ragna L. Fege, Xenia Oremek
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引用次数: 1

Abstract

Abstract This study evaluates the suitability of electrical resistance-based moisture content measurements, which are known to guarantee reliable values for moisture contents of wood, when applied to selected mineral building materials with and without water-repellent treatment. For the testing specimens of cement – mortar and solid brick were produced – the water-repellent treatment for the mortar specimens was carried out both by internal hydrophobization and surface treatment, while the bricks were hydrophobized by surface treatment only. For the measurements of electrical resistance electrodes were inserted into the specimens. For this purpose a borehole was drilled and the measuring point at the tip of the electrodes was glued conductively into the material. The remaining outer part of the electrodes was sealed with electrically isolating glue in order to establish a conductive connection in the middle of the specimens only. After storage at different relative humidity, the electrical resistance of the specimens was recorded using data logging devices. Based on gravimetrically measured moisture contents resistance characteristics for each material were established. A satisfying accuracy resulting from the comparison between gravimetrically measured and mathematically calculated material moisture contents confirmed the suitability of electrical resistance based moisture content measurements for selected treated and untreated mineral materials.
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疏水处理对砂浆和砖电导率影响的建模
摘要:本研究评估了基于电阻的水分含量测量的适用性,当应用于有或没有防水处理的选定矿物建筑材料时,该测量可以保证木材水分含量的可靠值。对水泥砂浆和实心砖试件进行了拒水处理,砂浆试件的拒水处理采用内部疏水和表面处理两种方法,而砖仅采用表面处理。为了测量电阻,在试样中插入电极。为此,钻孔并将电极尖端的测量点导电地粘在材料上。电极的其余外部部分用绝缘胶密封,以便仅在样品中间建立导电连接。在不同相对湿度下贮存后,用数据记录仪记录试样的电阻。根据重量测量的含水率,建立了每种材料的阻力特性。通过比较重量测量和数学计算得出的材料含水率,得到了令人满意的精度,证实了电阻式含水率测量对选定的处理过和未处理过的矿物材料的适用性。
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