Preparation of Magnesium Ammonium Phosphate Mortar by Manufactured Limestone Sand Using Compound Defoaming Agents for Improved Strength and Impermeability

Wenting Mao,Jueshi Qian,Xincheng Li,Chao You,Chunpeng Cao

doi:10.3390/buildings12030267

Wenting Mao, Jueshi Qian + Show 3 more

Open Access

https://doi.org/10.3390/buildings12030267

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Abstract

Magnesium ammonium phosphate cement (MAPC) mortar has recently risen up as high performance rapid repair material for concrete structures. But high costs of the raw materials limit its restoration and maintenance projects on a wide application range. This study proposes the use of manufactured limestone sand with lower cost and wider range of sources in replacement of quartz sand as fine aggregates to produce MAPC mortar. However, the limestone fines of manufactured sand were initially found to have negative effects on the performance of MAPC mortar, causing significant blistering and volume expansion and decreased compressive strength and interfacial bonding strength. To minimize these negative effects, polyether modified silicone (PMS) defoamer and its compound use with mineral admixtures Portland cement and silica fume were investigated on the effectiveness in reducing expansion and improving other properties of MAPC mortar. Results showed that the compound use of PMS defoamer and Portland cement as a new defoaming formula effectively reduced the volume expansion from 7.92% to 0.91%. The compressive strength and interfacial bonding strength were significantly improved by over 34% and 60% respectively. Moreover, this defoaming formula showed improvements in water-tight performance and resistance to chloride penetration. According to the mercury intrusion porosimetry (MIP) analysis, the total porosity of MAPC mortar after defoaming treatment was decreased by about 40% and the pore structure was also modified to be finer by significantly reducing the harmful macropores. Overall, the use of manufactured limestone sands as fine aggregates turned out to be a feasible and economic approach for promoting the filed application of MAPC mortar.

Highlights

Following the global construction boom, the maintenance technology of concrete structures has come into focus in the area of civil engineering
Compared with reference group with quartz sand, Magnesium ammonium phosphate cement (MAPC) mortar prepared by manufactured sand with limestone fines (10% and 20%) were observed to generate a lot of air bubbles, accompanied by significant volume expansion before hardening
This study has explored the feasibility of preparing MAPC mortar using manufactured limestone sand instead of quartz sand and proposed effective modification method to improve the properties of newly prepared MAPC mortar

Summary

Introduction

Following the global construction boom, the maintenance technology of concrete structures has come into focus in the area of civil engineering. Among various rapid repair cementitious materials, MPC outstands for the extremely quick hardening, high early strength, and good bonding to old concrete substrate [2,4,6,7,8] which meet the requirements of rapid repair for projects on highways, municipal roads, airfield pavements, and building structures. It has some unique properties such as excellent strength development under subzero temperature environment, minor shrinkage, and good abrasion resistance [2,9]. Such unique properties allow the use of MPC materials in some projects under extreme service environment

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