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引用本文:魏丽丽,胡明玉,陈露璐,郑江.不同碱环境下陶瓷抛光渣对碱硅酸反应的抑制作用[J].建筑材料学报,2021,24(1):99-105
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不同碱环境下陶瓷抛光渣对碱硅酸反应的抑制作用
魏丽丽, 胡明玉, 陈露璐, 郑江
南昌大学建筑工程学院,江西南昌330031
摘要:
以陶瓷抛光渣(PPR)为矿物掺和料,取代部分水泥制备砂浆棒,测定其在KOH溶液中的膨胀率,并对砂浆试样近集料区域进行扫描电子显微镜(SEM)分析,同时与在NaOH溶液中的试验数据进行对比,研究了PPR对水泥基材料碱硅酸反应(ASR)的抑制作用及其机理.结果表明:不同碱环境下,PPR均能有效抑制水泥基材料的ASR膨胀;当PPR掺量较小时,NaOH作用下的试样膨胀更小,当PPR掺量较大时,KOH作用下的试样膨胀更小;2种碱环境下均有K、Al同时在近集料区域富集的现象,并有非膨胀性架状铝硅酸盐KAlSiO4生成;PPR的高Al2O3、SiO2和低CaO含量特性对抑制水泥基材料ASR膨胀有重要作用.
关键词:  陶瓷抛光渣  碱环境  碱硅酸反应  抑制机理
DOI:103969/j.issn.1007 9629202101014
分类号:
基金项目:国家自然科学基金资助项目(51068023)
Inhibitory Effect of Porcelain Tile Polishing Residue on Alkali Silicate Reaction under Different Alkali Environment
WEI Lili, HU Mingyu, CHEN Lulu, ZHENG Jiang
School of Civil Engineering and Architecture, Nanchang University, Nanchang 330031, China
Abstract:
Previous studies showed that porcelain tile polishing residue was able to effectively inhibit alkali silica reaction(ASR) expansion. However, due to its high alkali content, it is necessary to further study the inhibition of ASR expansion in different alkali environments. Then the inhibitory mechanism of porcelain tile polishing residue on ASR was investigate. The mortar samples were prepared by using porcelain tile polishing residue as mineral admixture to replace part of cement, and their expansion ratios in KOH solution were measureed. SEM analysis of the near aggregate area of the mortar samples were carried out, and the experimental data in NaOH solution were compared. Experimental results show that porcelain tile polishing residue is able to effectively inhibit the ASR expansion of cementitious materials in NaOH or KOH solution. When the content of porcelain tile polishing residue is lower, the expansion ratio of samples is smaller in NaOH solution. When the content of porcelain tile polishing residue is larger, the expansion ratio of samples is smaller in KOH solution. In the two alkali solutions, potassium and aluminum are enriched in the near aggregate area simultaneously, and non expansive scaffold aluminosilicate KAlSiO4 is formed. The high content of SiO2 and Al2O3 and low content of CaO in porcelain tile polishing residue play an important role in inhibiting the expansion of ASR.
Key words:  porcelain tile polishing residue(PPR)  alkali environment  alkali silica reaction(ASR)  inhibitory mechanism
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