Early-age autogenous shrinkage and tensile creep of concrete reinforced with polypropylene macro fiber

IF 4.7 3区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Sustainable Cement-Based Materials Pub Date : 2023-05-28 DOI:10.1080/21650373.2023.2214135

Chuyuan Wen, D. Shen, Yueyao Luo, Wenting Wang, Ci Liu, Ming Li

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引用次数: 2

Abstract

Early-age autogenous shrinkage and thermal shrinkage developed in concrete may lead to cracking when the stress induced by restrained shrinkage is higher than the tensile strength of concrete. Early-age tensile creep (TC) of concrete can mitigate the tensile stress generated in concrete induced by restrained shrinkage. Characterizing the TC of concrete at early age is important for cracking resistance evaluation. The early-age autogenous shrinkage and TC of concrete with various proportions of polypropylene (PP) macro fiber (0%, 0.3%, 0.6%, and 0.9%) were investigated utilizing the Temperature Stress Test Machine. Fiber dispersion and the microstructure of concrete mixtures were also analyzed. Test results indicated that PP macro fiber reinforcement led to the improvement of mechanical properties and mitigation of autogenous shrinkage. TC behavior of concrete at early age including TC, TC coefficient, and specific TC decreased with the inclusion of PP macro fiber. A modified model for the prediction of the early-age specific TC of concrete reinforced with PP macro fiber was proposed.

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聚丙烯大纤维增强混凝土的早期自收缩和拉伸蠕变

当约束收缩引起的应力高于混凝土的抗拉强度时，混凝土中早期产生的自收缩和热收缩可能导致开裂。混凝土的早期拉伸蠕变（TC）可以减轻混凝土因约束收缩而产生的拉应力。表征混凝土早期的TC对于评估抗裂性非常重要。利用温度应力试验机研究了不同比例聚丙烯（PP）大纤维（0%、0.3%、0.6%和0.9%）混凝土的早期自收缩和TC。分析了纤维的分散性和混凝土混合料的微观结构。试验结果表明，聚丙烯大纤维增强材料能够改善力学性能，减缓自收缩。混凝土早期的TC行为，包括TC、TC系数和比TC，随着聚丙烯大纤维的加入而降低。提出了一种预测聚丙烯大纤维混凝土早期比TC的修正模型。

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来源期刊

Journal of Sustainable Cement-Based Materials Multiple-

CiteScore

6.60

自引率

15.90%

发文量

期刊介绍： The Journal of Sustainable Cement-Based Materials aims to publish theoretical and applied researches on materials, products and structures that incorporate cement. The journal is a forum for discussion of research on manufacture, hydration and performance of cement-based materials; novel experimental techniques; the latest analytical and modelling methods; the examination and the diagnosis of real cement and concrete structures; and the potential for improved cement-based materials. The journal welcomes original research papers, major reviews, rapid communications and selected conference papers. The Journal of Sustainable Cement-Based Materials covers a wide range of topics within its subject category, including but are not limited to: • raw materials and manufacture of cement • mixing, rheology and hydration • admixtures • structural characteristics and performance of cement-based materials • characterisation techniques and modeling • use of fibre in cement based-materials • degradation and repair of cement-based materials • novel testing techniques and applications • waste management