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Numerical analysis of the thermal active restrained shrinkage ring test to study the early age behavior of massive concrete structures

机译:热活性约束收缩环试验数值分析研究大型混凝土结构的早期性能

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摘要

Several tests, devoted to the study of cracking due to autogenous and drying shrinkage, exist in the literature. They are generally not relevant for the study of massive structures for which thermal strains plays a key role. Therefore, an active ring test has been developed to study cracking due to restrained thermal shrinkage. This test is an evolution of the restrained shrinkage ring test which allows us to take into account both autogenous and thermal shrinkage. With this test, the early age cracking due to thermal restrained shrinkage (effect of the temperature rate), the influence of reinforcement and construction joints have been studied (Briffaut et al. (2011) [ 1 j). Nevertheless, in this test, several phenomena occur simultaneously (hydration, shrinkage, creep...) and their effect cannot be easily decoupled. So, complementary tests have been performed to study each phenomenon separately and the ring test has been numerically simulated in order to identify coupling between creep and damage and to quantify the strength decrease due to construction joints. A good agreement between experimental and numerical results has been obtained for ring with reinforcement and construction joints. With the proposed model and the identified materials parameters validated on the active restrained ring test, numerical simulations of the construction of a real massive structure have been performed, and a parametric study has been achieved to highlight the creep effect.
机译:文献中存在几种专门研究由于自生和干燥收缩引起的开裂的试验。它们通常与研究热应变起关键作用的大型结构无关。因此,已经开发了一种主动环试验来研究由于热收缩受到限制而产生的开裂。此测试是约束收缩环测试的演变,它使我们能够考虑自发收缩和热收缩。通过该测试,研究了由于热约束收缩(温度率的影响)引起的早期开裂,钢筋和施工缝的影响(Briffaut等人(2011)[1j])。然而,在该测试中,同时发生了几种现象(水合作用,收缩,蠕变……),并且其作用不易分离。因此,已经进行了补充测试以分别研究每种现象,并对环测试进行了数值模拟,以识别蠕变与损伤之间的耦合并量化由于施工缝引起的强度降低。对于带有钢筋和施工缝的环,已经在实验和数值结果之间取得了很好的一致性。利用所提出的模型并在主动约束环试验中验证了确定的材料参数,对真实实体结构的构造进行了数值模拟,并进行了参数研究以突出蠕变效应。

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  • 来源
    《Engineering Structures》 |2011年第4期|p.1390-1401|共12页
  • 作者

    M. Briffaut; F. Benboudjema; J.M. Torrenti; G. Nahas;

  • 作者单位

    LMT/ENS Cachan/CNRS UMR 8535/UPMC/PRES UniverSud Paris, Cachan, France,Institut de radioprotection et de surete nucleaire, Fontenay-awt-Roses, France;

    Institut de radioprotection et de surete nucleaire, Fontenay-awt-Roses, France;

    Universite Paris Est, Laboratoire central des ponts et chaussees, Paris, France;

    LMT/ENS Cachan/CNRS UMR 8535/UPMC/PRES UniverSud Paris, Cachan, France,Institut de radioprotection et de surete nucleaire, Fontenay-awt-Roses, France;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    early age; concrete; massive structures; ring test; numerical simulation;

    机译:早期;混凝土;巨型结构;环试验;数值模拟;

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