The Effect of Recycled Citrogypsum as a Supplementary Mineral Additive on the Physical and Mechanical Performance of Granulated Blast Furnace Slag-Based Alkali-Activated Binders

IF 4.6 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Recycling Pub Date : 2023-02-07 DOI:10.3390/recycling8010022
N. Kozhukhova, N. Alfimova, M. Kozhukhova, I. Nikulin, Roman A. Glazkov, Anna I. Kolomytceva
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引用次数: 2

Abstract

In the last decades, gypsum-bearing industrial wastes become one of the common globally produced industrial and domestic wastes that are currently recycled and further utilized. In this study, the gypsum-bearing waste citrogypsum was used as a Ca2+-containing component to modify the properties of alkali-activated cement (AAC) based on granulated blast-furnace slag (GBFS). Citrogypsum was used in different AAC mixes activated with three different alkaline components: Na2CO3, NaOH, and Na2SiO3. Laser granulometry was applied to assess the granulometric characteristics of citrogypsum and GBFS. Specific gravity (SG), compressive strength, and water resistance were tested to evaluate the effect of citrogypsum on the physical and strength performance of AAC. Experimental results obtained over 4-day to 28-day time periods for the studied AACs showed that the addition of citrogypsum had a detrimental effect on the properties of AAC mixes, where decreases in compressive strength between 1 and 100%, decreases in specific gravity between 4 and 30%, and decreases in water resistance between 12 and 100% were observed. It was determined that AAC mixes modified with citrogypsum cured in ambient conditions had compressive strength values 61% to 90% lower than those cured in hydrothermal conditions. In terms of strength performance, specific gravity and water resistance, citrogypsum showed the greatest effect on AAC mixes activated with NaOH, and to a lesser extent, on mixes activated with Na2CO3. The highest water resistance value of 0.77 was observed for the AAC mixes activated with Na2CO3 cured in ambient conditions, and when cured in hydrothermal conditions, the highest water resistance reached up to 0.84 for the AAC mixes activated with NaOH. It was observed that the type of alkaline activator and curing conditions are both crucial factors that govern the response of citrogypsum as a supplementary mineral additive in GBFS-based AAC mixes in regard to compressive strength, specific gravity and water resistance.
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再生柠檬酸石膏作为矿物补充添加剂对造粒高炉渣基碱活化粘结剂物理力学性能的影响
在过去的几十年里,含石膏的工业废物成为全球常见的工业和生活废物之一,目前正在回收和进一步利用。本研究以含石膏的废弃香茅为含Ca2+组分,对基于粒化高炉矿渣(GBFS)的碱活性水泥(AAC)的性能进行了改性。柠檬酸石膏用于三种不同碱性成分(Na2CO3、NaOH和Na2SiO3)活化的不同AAC混合物中。激光粒度测定法用于评估柠檬ypsum和GBFS的粒度特征。测试了比重(SG)、抗压强度和耐水性,以评估香茅对AAC物理和强度性能的影响。所研究AAC在4天至28天的时间段内获得的实验结果表明,柠檬酸的添加对AAC混合物的性能有不利影响,其中观察到抗压强度降低了1%至100%,比重降低了4%至30%,耐水性降低了12%至100%。经测定,用在环境条件下固化的柠檬酸改性的AAC混合物的抗压强度值比在水热条件下固化时低61%至90%。就强度性能、比重和耐水性而言,香茅对用NaOH活化的AAC混合物的影响最大,对用Na2CO3活化的混合物的影响较小。在环境条件下固化的用Na2CO3活化的AAC混合物的最高耐水性值为0.77,并且当在水热条件下固化时,用NaOH活化的AAC混合物的最高防水性达到0.84。据观察,碱性活化剂的类型和固化条件都是控制柠檬酸作为GBFS基AAC混合物中的补充矿物添加剂在抗压强度、比重和耐水性方面的响应的关键因素。
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来源期刊
Recycling
Recycling Environmental Science-Management, Monitoring, Policy and Law
CiteScore
6.80
自引率
7.00%
发文量
84
审稿时长
11 weeks
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