Understanding the role of rheology in the plastic settlement and shrinkage cracking of early age concrete

Q2 Engineering RILEM Technical Letters Pub Date : 2022-12-02 DOI:10.21809/rilemtechlett.2022.139
J. Kolawole, R. Combrinck, W. Boshoff
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Abstract

Understanding the plastic (settlement/shrinkage) cracking phenomena of early-age concrete is important in-order to establish a holistic approach to minimise its occurrence. One of the factors associated with early-age concrete is the rheo-related behaviour which occur simultaneously within the timeframe known for plastic cracking. It is therefore useful to establish their links to broaden the knowledge of plastic cracking. This study is a novel evaluation of the influence of rheo-physical and rheo-viscoelastic behaviour on the plastic cracking behaviour by systematically altering these behaviours of formulated concrete mixes and extensively characterising them. The theory and frameworks for linking the behaviours were presented and established via statistical and analytical approaches. Significant rheo-related parameters found to influence plastic cracking phenomena include yield stress, structuration, creep and stress relaxation. The rheo-mechanics modelling suggests that the plastic cracking initiation tends to be a ductile failure that is pressure insensitive and sufficiently represented by von Mises criteria. This study opens up a consciousness to start evaluating mitigation strategies directed towards the materials optimisation of concrete mixtures to minimise the occurrence of plastic cracking in early-age concrete.
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了解流变学在早期混凝土塑性沉降和收缩开裂中的作用
了解早期混凝土的塑性(沉降/收缩)开裂现象对于建立一种将其发生降至最低的整体方法至关重要。与早期混凝土相关的因素之一是在已知塑性开裂的时间范围内同时发生的流变相关行为。因此,建立它们的联系以拓宽塑性开裂的知识是有用的。这项研究是对流变物理和流变粘弹性行为对塑性开裂行为影响的一项新的评估,通过系统地改变配制混凝土混合物的这些行为并对其进行广泛的表征。通过统计和分析方法提出并建立了将行为联系起来的理论和框架。发现影响塑性开裂现象的重要流变相关参数包括屈服应力、结构、蠕变和应力松弛。流变力学模型表明,塑性裂纹的萌生往往是一种延性破坏,这种破坏对压力不敏感,并由von Mises标准充分代表。这项研究开启了一种意识,即开始评估针对混凝土混合物材料优化的缓解策略,以最大限度地减少早期混凝土中塑性开裂的发生。
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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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