Behavior Of Concrete Beam Deflection Framework System

Proceeding on International Conference of Science Management Art Research Technology Pub Date : 2020-10-12 DOI:10.31098/ic-smart.v1i1.36

P. L. Frans, Hendrie Tahya

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Abstract

The bar used for concrete beams is generally in the form of shear or stirrups mounted perpendicular to the beam axis. The idea underlying this editorial problem arises from the writer's observation of the use of reinforced concrete beams by changing the configuration of vertical shear reinforcement to less sloping reinforcement related to the theory of its use. This study aims to analyze the deflection behavior of reinforcing beams with a three-quarter spacing distance from the effective height of the beam and produce the bending moment capacity of the skeletal beam reinforcement system. This research is an experimental laboratory study with twelve specimens consisting of three normal beams (BN) as control variable beams and nine reinforcement beams with a frame variation of 0.25d for BTR25, 0.50d for BTR50, and 0,75d for BTR75 each of the three test specimens. Data were analyzed using the strength design method. The results showed that the use of reinforcing frame systems could increase the strength of the beam when the load reaches the ultimate in the BTR25 beam by 10.72% for the BTR50 beam by 7.83% and for the BTR75 beam by 4.82% from the BN beam.

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混凝土梁挠曲框架体系的性能

用于混凝土梁的钢筋通常以剪力或箍筋的形式垂直于梁轴安装。这个编辑问题的想法源于作者对钢筋混凝土梁的使用的观察，通过改变垂直剪切钢筋的配置来减少与其使用理论相关的倾斜钢筋。本研究旨在分析与梁的有效高度间距为四分之三的配筋梁的挠度行为，并得出骨架梁配筋体系的弯矩能力。本研究为室内试验研究，选取12个试件，其中3根正常梁(BN)作为对照变梁，9根配筋梁，三个试件的框架变化量分别为:BTR25 0.25d、BTR50 0.50d、BTR75 0.75 d。采用强度设计方法对数据进行分析。结果表明:在BN梁荷载达到极限时，BTR25梁、BTR50梁和BTR75梁的强度分别提高了10.72%、7.83%和4.82%;

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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Proceeding on International Conference of Science Management Art Research Technology

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