Effect of water-to-binder ratio on the properties of CSA cement-based grouting materials with LiAl-LDH

IF 1.7 4区材料科学 Q3 MATERIALS SCIENCE, COMPOSITES

Advanced Composites Letters Pub Date : 2020-03-13 DOI:10.1177/2633366X20908876

Haiyan Li, Kuo Yang, X. Guan

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引用次数: 4

Abstract

The compressive strength of sulfoaluminate cement-based grouting materials (CBGMs) cannot meet the requirement of repair and reinforcement engineering in the presence of high water-to-binder ratio (w/b) of 0.5-1.2. Using nanotechnology, the mechanical property of the CBGM paste at different ages can be improved and our previous experimental results showed that lithium aluminum layered double hydroxides (LiAl-LDHs) with nanostructure can significantly increase the compressive strength of CBGM paste. In addition to the characteristics of nanomaterials, the performance of nanomaterials is also related to w/b of paste. In this work, the effect of w/b ratio on the compressive strength, hydration process, and products of calcium sulphoaluminate cement (CSA) CBGMs with and without LiAl-LDH was studied. Results indicate that with the increase of w/b from 0.6 to 1.0, the growth rate of compressive strength of CBGM paste with LiAl-LDH enhanced. Moreover, LiAl-LDH enhanced total hydration heat more effectively at a higher w/b and as the w/b increased from 0.6 to 1.0, the growth rate of hydration product boosted, which is the reason why the enhancement ratio of compressive strength of the paste was larger at high w/b.

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水胶比对LiAl-LDH CSA水泥基注浆材料性能的影响

当水胶比(w/b)在0.5 ~ 1.2之间时，硫铝酸盐水泥基注浆材料的抗压强度不能满足修复加固工程的要求。利用纳米技术可以改善不同龄期CBGM膏体的力学性能，我们之前的实验结果表明，纳米结构的锂铝层状双氢氧化物(LiAl-LDHs)可以显著提高CBGM膏体的抗压强度。纳米材料的性能除了与纳米材料本身的特性有关外，还与浆料的w/b有关。本文研究了w/b比对硫铝酸钙水泥(CSA) CBGMs的抗压强度、水化过程和产物的影响。结果表明，随着w/b从0.6增加到1.0，添加LiAl-LDH的CBGM膏体抗压强度的增长速度加快;高w/b时，LiAl-LDH能更有效地增强总水化热，当w/b从0.6增大到1.0时，水化产物的增长速度加快，这也是高w/b时膏体抗压强度增强比较大的原因。

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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来源期刊

Advanced Composites Letters 工程技术-材料科学：复合

自引率

0.00%

发文量

审稿时长

4.2 months

期刊介绍： Advanced Composites Letters is a peer reviewed, open access journal publishing research which focuses on the field of science and engineering of advanced composite materials or structures.