Investigation on Lateral Loading on Masonry Walls

Nepal Journal of Science and Technology Pub Date : 2021-10-10 DOI:10.3126/njst.v20i1.39385

Hari Ram Parajuli, Arjun Ghimire

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Abstract

5) Though a traditional material used for construction for ages, masonry is a complex composite material, and its mechanical behavior is influenced by a large number of factors, is not generally well understood. This research aims to study the methodology available in the literature to evaluate the increase in performance of masonry by applying different reinforcement options under in-plane lateral loading. Nonlinear static analysis has been carried out as part of this research to achieve the above objectives. Different unreinforced masonry wall panels were analyzed at various load conditions. Material properties for the masonry wall were taken from the experimental test results of previous literature. The walls were first checked for two failure mechanisms. The stress distributions of walls were checked in each step of analysis and shear failure, and rocking failure was found. Each wall was then analyzed for six different reinforcement options. The comparison of results obtained from the reinforced wall analysis with that of the unreinforced wall indicated significant increase in lateral load-bearing capacity and decreased wall displacement with reinforcement. The maximum increase in load-bearing capacity was achieved by adding chicken wire mesh or CFRP bands throughout the wall while the maximum decrease in displacement was achieved by adding 12 mm diameter bars at the spacing of one meter.

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砌体墙体侧向荷载的研究

5)砌体是一种传统的建筑材料，虽然使用了很长时间，但它是一种复杂的复合材料，其力学性能受许多因素的影响，目前还没有得到普遍的了解。本研究旨在研究文献中可用的方法，以评估砌体在面内横向荷载下，通过应用不同的配筋方案来提高性能。为了实现上述目标，本研究进行了非线性静力分析。对不同的无筋砌体墙板在不同荷载条件下进行了分析。砌体墙体的材料性能取自以往文献的试验测试结果。首先检查了两种破坏机制。对分析各阶段墙体的应力分布进行了校核，发现了剪力破坏和摇摆破坏。然后对每面墙进行了六种不同的加固方案分析。加筋墙分析结果与未加筋墙分析结果的比较表明，加筋墙的侧向承载能力显著提高，墙体位移明显减小。通过在整个墙体中添加鸡丝网或CFRP带可以最大限度地增加承重能力，而在间距为1米的地方添加直径为12毫米的筋可以最大限度地减少位移。

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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Nepal Journal of Science and Technology

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