Steel Fiber Reinforcement for Extruded Prestressed Hollow Core Slabs

SP-182: Structural Applications of Fiber Reinforced Concrete Pub Date : 1999-05-01 DOI:10.14359/5523

C. Peaston, K. Elliott, K. Paine

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引用次数: 13

Abstract

An experimental investigation was conducted to assess the potential of steel fibers as secondary reinforcement in prestressed hollow core slabs. Following a brief laboratory study and a feasibility trial, a series of fibre reinforced extruded slabs were made at the premises of a local manufacturer and subsequently tested in shear: one of a number of potential modes of failure which cause concern in this type of slab because of the lack of shear or secondary reinforcement. The addition of the fibres increased both the ultimate strength and toughness of the slabs leading to safer and more controlled failures. The predictive equations of other researchers were shown to accurately estimate the shear strength in the case of plain hollow core slabs, but to overestimate the shear enhancement due to adding steel fibres. Additionally, the effect of the manufacturing process, in which the concrete is compacted by rotating augers, on the fibre distribution and orientation was investigated. While fibres were found to be randomly distributed within the cross-section, a tendency to align vertically within the webs was observed. This has particular relevance to the vertical shear performance.

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挤压预应力空心芯板用钢纤维加固

试验研究了钢纤维作为二次配筋在预应力空心芯板中的应用潜力。经过简短的实验室研究和可行性试验后，在当地一家制造商的场所制作了一系列纤维增强挤压板，并随后在剪切中进行了测试:由于缺乏剪切或二次加固，这类板的许多潜在破坏模式之一引起了人们的关注。纤维的加入增加了楼板的极限强度和韧性，导致更安全、更可控的破坏。其他研究人员的预测方程表明，在普通空心芯板的情况下，准确地估计了抗剪强度，但高估了由于加入钢纤维而增加的抗剪强度。此外，还研究了通过旋转螺旋钻压实混凝土的制造工艺对纤维分布和方向的影响。虽然发现纤维在横截面内随机分布，但观察到在网内垂直排列的趋势。这与垂直剪切性能特别相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SP-182: Structural Applications of Fiber Reinforced Concrete

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