Innovative Steel Pennon Plate-Headed Stud of Shear Connectors for Composite Structures

Q3 Engineering Advances in Technology Innovation Pub Date : 2023-07-04 DOI:10.46604/aiti.2023.9196
Rahul Tarachand Pardeshi, Prakash Abhiram Singh, Yogesh Deoram Patil
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Abstract

This study proposes an innovative pennon plate-headed stud of shear connectors. The proposed stud consists of two triangular-shaped steel plates on both sides of the headed stud; it is expected to increase the shear capacity of a steel-concrete composite connection. Nonlinear finite element analysis is carried out using ABAQUS to analyze the response of 54 models of PPH studs. A full factorial design and the analysis of variance are employed in the design of experiments (DOE). The impacts of factors and their interactions, such as the thickness and height of the pennon plates, concrete grades, and stud diameters, are captured by using 33 × 21 DOE with a 5% significance level. The results show that the ultimate shear resistance is increased apparently. Additionally, the concrete grade and stud diameter significantly influence the capacity of the connection. Moreover, connection slip is greatly affected by concrete grade, the height of the plate, and the interaction between plate thickness and height.
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复合型结构剪切连接件的创新钢板头螺栓
本研究提出了一种创新的五角形板头螺栓剪力连接。所建议的螺柱由位于头螺柱两侧的两块三角形钢板组成;预计将提高钢-混凝土组合连接的抗剪能力。采用ABAQUS软件对54种PPH螺栓模型进行非线性有限元分析。实验设计采用全因子设计和方差分析。采用33 × 21 DOE,显著性水平为5%,捕获了各因素的影响及其相互作用,如角钢板的厚度和高度、混凝土等级和螺柱直径。结果表明:该结构的极限抗剪能力明显提高。此外,混凝土等级和螺柱直径对连接能力有显著影响。此外,连接滑移受混凝土标号、板的高度以及板厚与高度的相互作用影响较大。
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来源期刊
Advances in Technology Innovation
Advances in Technology Innovation Energy-Energy Engineering and Power Technology
CiteScore
1.90
自引率
0.00%
发文量
18
审稿时长
12 weeks
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