Behavior of Fibrous Reinforced Concrete Splices

The Open Civil Engineering Journal Pub Date : 2021-12-31 DOI:10.2174/1874149502115010441

M. H. Rasheed, A. Agha, B. O. Taha

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Abstract

The tangent of the relationship between bond stress and displacement (slip) is called the modulus of displacement and gives the basis for the theory. This theory is used to determine the stress distribution along the spliced reinforcement bars. This research presents a modification on the theory of the modulus of displacement to determine the stress distribution along the spliced reinforcement bond for fibrous reinforced concrete. 1- General differential equations are derived for concrete stress, stress in reinforcement bars and bond stress between reinforcement bars and surrounding concrete. 2-The general solutions of these D.E. are determined and Excel data sheets are prepared to apply these solutions and determine the concrete, steel and bond stresses. Excel data sheets are prepared to determine the concrete, steel and bond stresses. The stresses are determined along the bar splice length considering the effect of steel fiber content. The maximum concrete stress is obtained at center x=0 and minimum at . Maximum bond stress obtained at and minimum at the center. The maximum steel stress at and minimum at . The value of (σcmax) increased linearly with increasing of (ρ). The concrete stress increased nonlinearly with (ρ%) and linearly with ( fy) and (fc’). Also increasing of (k) and bar diameter have small effects. The value of bond stress decreased linearly with (Qf) and (ρ%).

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纤维钢筋混凝土接头的性能

胶结应力与位移(滑移)关系的正切称为位移模量，是理论的基础。这一理论被用来确定沿拼接钢筋的应力分布。本文提出了对位移模量理论的修正，以确定纤维钢筋混凝土沿拼接钢筋粘结的应力分布。1-推导了混凝土应力、钢筋内应力和钢筋与周围混凝土粘结应力的一般微分方程。确定了这些D.E.的一般解决方案，并准备了Excel数据表来应用这些解决方案并确定混凝土，钢材和粘结应力。准备了Excel数据表来确定混凝土、钢材和粘结应力。考虑钢纤维含量的影响，沿钢筋接头长度方向确定应力。混凝土应力在中心x=0处最大，在中心x=0处最小。在中心处获得最大键应力，在中心处获得最小键应力。最大钢应力为，最小钢应力为。(σcmax)随(ρ)的增加而线性增加。混凝土应力随ρ%非线性增大，随fy和fc′线性增大。增大(k)和棒材直径的影响较小。键应力值随(Qf)和(ρ%)线性减小。

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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The Open Civil Engineering Journal

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