Experimental Study on the Behavior of Tension Member Under Rupture

Recent Advancements in Geotechnical Engineering Pub Date : 2021-08-15 DOI:10.21741/9781644901618-26

M. Rajendran, V. Gnanasundar, C. Aravindhan

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Abstract

Abstract. A steel structure is naturally lighter than a comparable concrete construction because of the higher strength and firmness of steel. Nowadays, the growth of steel structures in India is enormous. There are so many advantages in adopting the steel as structural members. Almost all high-rise buildings, warehouses & go-downs are steel structures and even some of the commercial buildings are made of steel. Tension members are the elements that are subjected to direct axial load which tends in the elongation of the structural members. Even today bolted connections play a major role in the connection of hot rolled structural steel members. In this experimental study the behavior of tension members (TM) such as plates, angles & channels have been studied under axial tensile force. There is strong relation between pitch and gauge (with in the specified limit as per IS 800:2007) in determining the rupture failure plane. In this study we intensively tested the behaviour of TM for different fasteners pattern by changing the pitch, gauge, end & edge distance and by adopting the different patterns or arrangements of bolted connection in it.

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受拉构件断裂性能试验研究

摘要钢结构比类似的混凝土结构要轻，因为钢的强度和硬度更高。如今，印度钢结构的增长是巨大的。采用钢作为结构构件有许多优点。几乎所有的高层建筑、仓库和仓库都是钢结构，甚至一些商业建筑也是钢结构的。受拉构件是受直接轴向载荷的构件，轴向载荷倾向于结构构件的伸长。即使在今天，螺栓连接在热轧结构钢构件的连接中也起着主要作用。本实验研究了受拉构件(板、角、槽)在轴向拉力作用下的受力行为。在确定断裂破坏面时，节距和规距之间有很强的关系(在is 800:2007规定的极限范围内)。在这项研究中，我们通过改变螺距、规格、端部和边缘距离以及采用不同的螺栓连接模式或安排，集中测试了TM在不同紧固件模式下的行为。

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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Recent Advancements in Geotechnical Engineering

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