Impact of electric arc furnace slag on geopolymer composites exposed to sulphate solution

Journal of Building Materials and Structures Pub Date : 2017-08-27 DOI:10.5281/ZENODO.848887

H. Khater

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Abstract

Effect of sulfate solution on the geopolymer formed from electric arc furnace slag (EAF) along with water cooled slag and cement kiln dust was studied. Activation was carried up on usage of 25% CKD as it bears high alkali content that can initiate and propagate the polymerization process. The formed geopolymer products were immersed in 5% MgSO4 solution to determine the stability up on sulfate attack. FTIR, XRD, SEM, compressive strength and water absorption were utilized to examine the resulted geopolymer product under sulfate attack. Results showed that, the compressive strength of geopolymer specimens increase with EAF slag up to 50% then decrease with further slag increase, possessing stability up 12 months and giving an increased compressive strength than the control mix that has not EAFS by 6.53%, 14.72%, 47.44% and -4.89 % after immersing ages of 3 months and 2.26, 14.26, 43.97 and 19.98 % after immersing age of 12 months for replacement by 10, 25, 50 and 75% of EAFS, respectively. Data elucidated a good stability and resistance of mix containing slag substitution by 50 % EAF and 25 % GGBFS and results in further enhancement in both mechanical and microstructural characteristics than the non-immersed samples (28days).

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电弧炉渣对硫酸盐溶液暴露的地聚合物复合材料的影响

研究了硫酸盐溶液对电弧炉矿渣、水冷矿渣和水泥窑粉尘形成地质聚合物的影响。活化是在使用25%的CKD时进行的，因为它具有高碱含量，可以引发和传播聚合过程。将形成的地质聚合物产物浸入5%MgSO4溶液中，以确定在硫酸盐侵蚀下的稳定性。利用FTIR、XRD、SEM、抗压强度和吸水率等测试手段对硫酸根侵蚀下的地质聚合物产物进行了表征。结果表明，地质聚合物试件的抗压强度随EAF炉渣的增加而增加50%，然后随炉渣的进一步增加而降低，在12个月内具有稳定性，在浸泡3个月和2.26、14.26个月后，抗压强度分别比未加入EAF的对照混合物提高了6.53%、14.72%、47.44%和-4.89%，浸泡12个月后，用10%、25%、50%和75%的EAFS分别替换43.97%和19.98%。数据表明，含有50%EAF和25%GGBFS的矿渣替代物的混合物具有良好的稳定性和耐受性，与未浸泡的样品相比（28天），其机械和微观结构特征进一步增强。

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来源期刊

Journal of Building Materials and Structures

自引率

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审稿时长

12 weeks