Compressive Toughness Characterization of Normal and High-Strength Fiber Concrete Reinforced With Steel Spirals

SP-182: Structural Applications of Fiber Reinforced Concrete Pub Date : 1999-05-01 DOI:10.14359/5526

G. Campione, S. Mindess

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引用次数: 5

Abstract

Steel, polyolefin and carbon fiber reinforced concretes were combined with traditional transverse steel reinforcement in the form of steel spirals. The complete stress-strain relationship and the ductility of the concrete in compression in both the unconfined and confined states was evaluated. The compressive toughness was evaluated both according to the Japanese Standard JSCE - SP% and according to a new method proposed in the present work. The experimental program consisted of testing concrete cylinders under compression at two different strength levels: normal (48 MPa) and high strength (70 MPa), reinforced with different volume percentages of steel, polyolefin and carbon fibers. These tests were then repeated with the addition of spiral reinforcement with different pitches (25 and 50 mm). It was found that by combining fibers and steel spirals it is possible: (1) to obtain a high level of fracture energy dissipation, which could previously be obtained only by using a high volume percentage of spiral steel; and (2) to improve the maximum strain of the concrete, corresponding to the first failure of the spiral steel.

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钢螺旋增强普通和高强纤维混凝土的抗压韧性特性

钢、聚烯烃和碳纤维增强混凝土以钢螺旋的形式与传统的横向钢筋结合在一起。评估了混凝土在无侧限和有侧限状态下的完全应力-应变关系和压缩延性。根据日本标准JSCE - SP%和本文提出的新方法对材料的抗压韧性进行了评定。试验方案包括测试混凝土圆柱体在正常(48 MPa)和高强度(70 MPa)两种不同强度水平下的受压情况，这些圆柱体由不同体积百分比的钢、聚烯烃和碳纤维增强。然后通过添加不同螺距(25和50 mm)的螺旋钢筋重复这些测试。研究发现，纤维与螺旋钢的结合可以:(1)获得高水平的断裂能量耗散，这是以前只有使用高体积百分比的螺旋钢才能获得的;(2)提高混凝土的最大应变，对应于螺旋钢的第一次破坏。

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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