Effect of chemical admixtures on the properties of grouting materials with high-volume mineral materials

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

Advanced Composites Letters Pub Date : 2019-01-01 DOI:10.1177/2633366X19895285

Xianjun Li

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Abstract

Based on the preparation of grouting materials with high-volume mineral admixtures, the effects of chemical admixtures including early-strength components and retarding components on the grouts with volume mineral admixtures were investigated. The results show that early-strength components have little effect on the grouts with high-volume mineral admixtures. Retarding component sodium gluconate does not play a great role for the grouts with high-volume mineral admixtures. However, the incorporation of borax and sodium tripolyphosphate can greatly improve the properties of the grouts, mainly due to their composite effect. The appropriate compound content is 0.4 wt% borax and 0–0.2 wt% sodium tripolyphosphate of cementitious materials. When 0.4 wt% borax and 0.2 wt% sodium tripolyphosphate were added to the grouts with volume mineral admixtures, initial fluidity and 30-min fluidity are 340 mm, and 1-, 3-, and 28-day compressive strength are, respectively, 41.6, 57.1, and 81.5 MPa. These values far exceed the standard requirements. It also shows that early-strength components and sodium gluconate can be neglected when high-volume mineral admixtures are added to the grouts.

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化学外加剂对大体积矿物材料灌浆材料性能的影响

在大掺量矿物掺合料制备灌浆材料的基础上，研究了包括早期强度组分和缓凝剂组分在内的化学掺合料对大掺量矿物质掺合料灌浆材料的影响。结果表明，早期强度组分对掺有高掺量矿物掺合料的浆液影响不大。缓凝剂组分葡萄糖酸钠对掺有高掺量矿物掺合料的浆液作用不大。然而，硼砂和三聚磷酸钠的掺入可以极大地改善浆液的性能，这主要是由于它们的复合效应。合适的复合物含量为胶结材料的0.4 wt%硼砂和0–0.2 wt%三聚磷酸钠。当将0.4 wt%硼砂和0.2 wt%三聚磷酸钠添加到具有体积矿物掺合料的浆液中时，初始流动性和30分钟流动性为340mm，1天、3天和28天抗压强度分别为41.6、57.1和81.5MPa。这些值远远超过了标准要求。研究还表明，当向灌浆中添加大量矿物掺合料时，可以忽略早期强度组分和葡萄糖酸钠。

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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.