Cold weather concreting: codes' provisions and research advances

IF 1.3 Q3 CONSTRUCTION & BUILDING TECHNOLOGY Proceedings of the Institution of Civil Engineers-Construction Materials Pub Date : 2023-11-09 DOI:10.1680/jcoma.23.00062
A. M. Yasien, M. T. Bassuoni
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Abstract

In cold regions, concrete practitioners face challenges in achieving the target performance criteria of concrete produced under low temperatures. When concrete temperature drops to −2.8°C, the hydration development of cementitious binders nominally ceases due to the freezing of mixing water, which results in hydraulic and osmotic pressures, that exceed the tensile capacity of concrete, especially at early-age (immature stage). Subsequently, the hardening and strength gain rates of concrete are adversely affected, resulting in insufficient microstructural development and irreversible deterioration, which makes concrete applications challenging under cold weather. Therefore, multiple investigations have been conducted to develop efficient approaches to overcome the challenges of placing concrete under low temperatures. The current paper synthesizes code provisions in North America and Europe and state-of-the-art knowledge on cold weather concreting, in terms of mixtures components as well as new inventions and methods of concrete curing and protection under low temperatures. Hence, it should provide informative guidance for the construction industry in cold regions to improve cold weather concreting practices.
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低温混凝土:规范规定与研究进展
在寒冷地区,混凝土从业者在实现低温下生产的混凝土的目标性能标准方面面临挑战。当混凝土温度降至−2.8℃时,由于搅拌水的冻结,名义上胶凝粘合剂的水化发展停止,这导致水压和渗透压超过混凝土的抗拉能力,特别是在早期(未成熟阶段)。随后,混凝土的硬化率和强度增加率受到不利影响,导致微观结构发育不足和不可逆退化,这使得混凝土在寒冷天气下的应用具有挑战性。因此,已经进行了多次调查,以开发有效的方法来克服在低温下放置混凝土的挑战。本文综合了北美和欧洲的规范规定以及关于寒冷天气混凝土的最新知识,包括混合物成分以及低温下混凝土养护和保护的新发明和方法。因此,它应该为寒冷地区的建筑行业提供信息指导,以改善寒冷天气的混凝土实践。
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来源期刊
CiteScore
3.80
自引率
0.00%
发文量
23
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