In-plane shear behaviour of concrete sandwich panels reinforced with various geogrids

IF 2.2 4区 工程技术 Q2 ENGINEERING, CIVIL
Upender Bishnoi, A. B. Danie Roy, Naveen Kwatra
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引用次数: 0

Abstract

AbstractSeismic occurrences have caused severe damage and even the collapse of fragile unreinforced masonry structures. New technologies are replacing these conventional methods of construction; concrete sandwich panels (CSP) are one such technique gaining popularity. In-plane diagonal shear strength of concrete sandwich panels is studied experimentally, and the effect of incorporating geogrids on the deformation capability and load-bearing capacity is reported. Two forms of geogrid material, plastic uniaxial geogrid (PUG) and polyester biaxial geogrids (PBG2 and PBG3) are used to improve the strength and ductility of concrete sandwich panels. Diagonal compression tests have been carried out better to understand the behavior of CSP under in-plane strength. This paper also discusses the effect of the different mixes, the effect of geogrids, load-deformation behaviour, shear capacity, deflection ductility factor, mode of failure, shear strength, and energy dissipation. In contrast to the control specimen, specimens cast with plastic geogrid had a 13.7% and 26% improvement in shear capacity and load-bearing capability for the two types of micro-concrete mixes used in this study. The conclusion reached is that plastic uniaxial geogrid is effective in improving the concrete sandwich panels’ load-bearing capacity, shear capacity, and deformation ability. Polyester biaxial geogrids enhanced the ductility of the concrete sandwich panels.Keywords: Concrete sandwich panelIn-plane diagonal compressiongeogridsenergy dissipation Disclosure statementNo potential conflict of interest was reported by the author(s).Data availability statementThe data that support the findings of this study are available from the corresponding author, upon reasonable request.
各种土工格栅加固混凝土夹芯板的面内剪切性能
摘要地震的发生会对脆弱的未加筋砌体结构造成严重的破坏甚至倒塌。新技术正在取代这些传统的建造方法;混凝土夹芯板(CSP)就是这样一种越来越受欢迎的技术。试验研究了混凝土夹芯板的面内斜抗剪强度,并报道了加装土工格栅对夹芯板变形能力和承载能力的影响。采用塑料单轴土工格栅(PUG)和聚酯双轴土工格栅(PBG2和PBG3)两种形式的土工格栅材料来提高混凝土夹芯板的强度和延性。为了更好地了解CSP在面内强度作用下的性能,进行了斜向压缩试验。本文还讨论了不同混合料的影响,土工格栅的影响,荷载-变形行为,抗剪能力,挠曲延性系数,破坏模式,抗剪强度和能量耗散。与对照试件相比,采用塑料土工格栅浇筑的两种微混凝土试件抗剪承载力和承载能力分别提高了13.7%和26%。得出塑性单轴土工格栅对提高混凝土夹芯板的承载能力、抗剪能力和变形能力是有效的结论。聚酯双轴土工格栅增强了混凝土夹芯板的延展性。关键词:混凝土夹芯板面内斜压地格栅耗能披露声明作者未报告潜在利益冲突。数据可用性声明支持本研究结果的数据可在合理要求下从通讯作者处获得。
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来源期刊
European Journal of Environmental and Civil Engineering
European Journal of Environmental and Civil Engineering ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL
CiteScore
4.80
自引率
4.80%
发文量
153
审稿时长
6 months
期刊介绍: The European Research Area has now become a reality. The prime objective of the EJECE is to fully document advances in International scientific and technical research in the fields of sustainable construction and soil engineering. In particular regard to the latter, the environmental preservation of natural media (soils and rocks) and the mitigation of soil-related risks are now not only major societal challenges, but they are also the source of scientific and technical developments that could be extremely beneficial.
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