{"title":"Ettringite Formation and Sulfate Attack on Concrete","authors":"M. Collepardi","doi":"10.14359/10569","DOIUrl":null,"url":null,"abstract":"The paper presents a critical review of the relationship between ettringite formation and sulfate attack. Ettringite formation is associated with expansion. However, any ettringite-related expansion is not necessarily related to sulfate attack. Early ettringite formation (EEF) which occurs immediately (within hours) in a plastic fresh mixture does not produce any damaging expansion and is associated with the regulation of setting time of portland cement paste. Expansion after the hardening of cement paste can be advantageously used for development of chemical prestress in expansive cements. Delayed ettringite formation (DEF) occurs at late ages and the related heterogeneous expansion in a very rigid hardened concrete can produce cracking and spalling. Two different types of DEF are examined depending on the sulfate source: DEF caused by external sulfate attack (ESA) or internal sulfate attack (ISA). ESA, related to the interaction of environmental sulfate with the cement matrix, can be precluded by the use of impermeable concrete. On the other hand, ISA occurs in a sulfate-free environment due to the interaction of internal sulfate (from cement or gypsum contaminated aggregate) with calcium-aluminate hydrates of the cement paste. Two different mechanisms of DEF caused by ISA are examined. The first one is based on the thermal decomposition of ettringite in high-temperature cured concrete elements and the subsequent re-formation of ettringite at ambient temperature in a saturated atmosphere. According to the second mechanism ISA is based on a chain of three essential events (microcracking, late sulfate release, and exposure to water) and DEF could occur even at room temperature.","PeriodicalId":184301,"journal":{"name":"\"SP-200: Fifth CANMET/ACI Conference on Recent Advances in Concrete Technology-Proceeding, Fifth International Conference\"","volume":"56 9","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2001-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"37","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"\"SP-200: Fifth CANMET/ACI Conference on Recent Advances in Concrete Technology-Proceeding, Fifth International Conference\"","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.14359/10569","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 37

Abstract

The paper presents a critical review of the relationship between ettringite formation and sulfate attack. Ettringite formation is associated with expansion. However, any ettringite-related expansion is not necessarily related to sulfate attack. Early ettringite formation (EEF) which occurs immediately (within hours) in a plastic fresh mixture does not produce any damaging expansion and is associated with the regulation of setting time of portland cement paste. Expansion after the hardening of cement paste can be advantageously used for development of chemical prestress in expansive cements. Delayed ettringite formation (DEF) occurs at late ages and the related heterogeneous expansion in a very rigid hardened concrete can produce cracking and spalling. Two different types of DEF are examined depending on the sulfate source: DEF caused by external sulfate attack (ESA) or internal sulfate attack (ISA). ESA, related to the interaction of environmental sulfate with the cement matrix, can be precluded by the use of impermeable concrete. On the other hand, ISA occurs in a sulfate-free environment due to the interaction of internal sulfate (from cement or gypsum contaminated aggregate) with calcium-aluminate hydrates of the cement paste. Two different mechanisms of DEF caused by ISA are examined. The first one is based on the thermal decomposition of ettringite in high-temperature cured concrete elements and the subsequent re-formation of ettringite at ambient temperature in a saturated atmosphere. According to the second mechanism ISA is based on a chain of three essential events (microcracking, late sulfate release, and exposure to water) and DEF could occur even at room temperature.
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钙矾石的形成及硫酸盐对混凝土的侵蚀
本文综述了钙矾石的形成与硫酸盐侵蚀的关系。钙矾石的形成与膨胀有关。然而,任何与钙矾石有关的膨胀都不一定与硫酸盐侵蚀有关。早期钙矾石形成(EEF)在塑性新鲜混合物中立即(在数小时内)发生,不会产生任何破坏性膨胀,并且与硅酸盐水泥膏体凝结时间的调节有关。水泥浆体硬化后的膨胀有利于膨胀水泥中化学预应力的发展。延迟钙矾石形成(DEF)发生在较晚的龄期,其相关的非均质膨胀会在极刚性硬化混凝土中产生开裂和剥落。根据硫酸盐来源,研究了两种不同类型的DEF:由外部硫酸盐攻击(ESA)或内部硫酸盐攻击(ISA)引起的DEF。ESA与环境硫酸盐与水泥基体的相互作用有关,可以通过使用不透水混凝土来排除。另一方面,由于内部硫酸盐(来自水泥或石膏污染的骨料)与水泥浆的铝酸钙水合物相互作用,ISA发生在无硫酸盐环境中。研究了由ISA引起的两种不同的DEF机制。第一种是基于钙矾石在高温固化混凝土构件中的热分解,以及随后钙矾石在环境温度下在饱和气氛下的再形成。根据第二种机制,ISA是基于三个基本事件的连锁反应(微开裂、硫酸盐晚释放和暴露于水),DEF即使在室温下也可能发生。
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