评估用于 RC 梁柱连接的各种 FRP 加固配置

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
M. R. Shokrzadeh, Armin Aziminejad, Abdolreza S. Moghaddam
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引用次数: 0

摘要

加固钢筋混凝土接缝有多种方法。由于 FRP(纤维增强聚合物)复合材料的独特性能,使用 FRP 层压板是最常用的技术之一。在钢筋混凝土接缝改造中,准备混凝土表面和粘贴玻璃钢层压板的成本较高,这也是限制其应用的一个因素。因此,确定适当的配置以减少所需的玻璃钢材料,以及粘贴玻璃钢所需的表面处理,是降低加固成本的一个重要因素。玻璃钢条的适当排列可以提高其在钢筋混凝土接缝修复和改造中的性能。为确定 FRP 带的适当配置,采用了有限元建模。连接试件在 ABAQUS 通用有限元软件中建模,并分为 10 大类。为了提高玻璃钢条配置的性能,研究了不同厚度和不同宽度玻璃钢条的确定布置,并将其结果与全玻璃钢覆盖加固的连接试件的结果进行了比较。分析结果表明,采用 X 型和正交玻璃钢条组合配置加固的连接件的承载能力与全玻璃钢覆盖的试样接近。在这种合适的配置中,所需的玻璃钢条减少了约 30%,从而降低了混凝土连接修复所需的成本和施工工程量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of various FRP strengthening configurations for RC beam-column joints
There are several methods for strengthening reinforced concrete joints. Due to the unique properties of FRP (Fiber Reinforced Polymer) composites, the use of FRP laminates is one of the most commonly used techniques. The high cost of preparing concrete surfaces and attaching FRP laminates is a restricting factor for its application in reinforced concrete joint retrofit. Therefore, determining proper configurations that reduce the needed FRP material, as well as the surface preparation required for attaching FRP is an important factor in decreasing the strengthening cost. The proper arrangements of FRP strips can improve their performance in the rehabilitation and retrofit of reinforced concrete joints. To determine the proper configuration of FRP strips, finite element modeling was employed. The connection specimens are modeled in ABAQUS general-purpose finite element software and are classified into 10 general groups. To improve the performance of FRP strip configuration, the determined arrangement is investigated for different thicknesses and different widths of the FRP strips, and their results are compared with those of the connection specimen strengthened with full FRP coverage. The analysis results indicated that the load-bearing capacity of the connection retrofitted by the combined configuration of X-shape and orthogonal strips of FRP is close to that of the specimen with full FRP coverage. In this suitable configuration, the required FRP strips are reduced by about 30% , which decreases the cost and construction works needed for concrete joint rehabilitation.
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来源期刊
Bridge Structures
Bridge Structures CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
1.10
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0.00%
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5
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