This paper presents fundamental work done to enable fibre reinforcement of roller-compacted concrete (RCC). Procedures for mixing and casting two types of steel fibres in RCC were developed. Fresh properties, uniaxial compressive and bending behaviour were examined in a pilot study dealing with cement content, fibre type and dosage. It was found that different fibre types and dosages require different moisture contents. It is concluded that low cement content (less than 300 kg/m) steel-fibre-reinforced roller-compacted concrete (SFR-RCC) mixes do not have sufficient paste and are prone to fibre agglomeration, hence SFR-RCC mixes richer in paste and at optimum moisture content are recommended. Mixes with cement content of 300 kg/m coped better with fibre reinforcement. Despite causing some loss in compressive strength, fibres help enhance the flexural performance and even SFR-RCC mixes with recycled masonry and concrete aggregates performed equally well as natural aggregate mixes. A fullscale trial has been conducted to confirm the findings. This paper is followed by a companion paper dealing with a comprehensive parametric study leading to the development of σ-ε models for SFR-RCC.
展开▼
机译:本文介绍了为增强碾压混凝土(RCC)的纤维而进行的基础工作。开发了在RCC中混合和浇铸两种类型钢纤维的程序。在涉及水泥含量,纤维类型和用量的初步研究中,检查了新鲜特性,单轴压缩和弯曲行为。发现不同的纤维类型和剂量需要不同的水分含量。结论是,低水泥含量(小于300 kg / m2)的钢纤维增强碾压混凝土(SFR-RCC)混合料没有足够的糊料,并且易于纤维团聚,因此SFR-RCC混合料中的糊料更丰富并建议在最佳湿度下使用。水泥含量为300 kg / m的混合料可以更好地应对纤维增强。尽管会造成抗压强度的一些损失,但纤维仍有助于提高抗弯性能,甚至SFR-RCC与再生砖石的混合料和混凝土骨料的性能也与天然骨料相同。已经进行了全面试验以证实研究结果。本文后面是一篇伴随论文,涉及全面的参数研究,从而开发了SFR-RCC的σ-ε模型。
展开▼
