New shear transfer system for concrete‐filled steel tube (CFST) columns

IF 1.2 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Steel Construction-Design and Research Pub Date : 2022-05-01 DOI:10.1002/stco.202100046

M. Soltanalipour, Miquel Ferrer‐Ballester, Frederic Marimon Carvajal, Albert Albareda Valls, Miquel Casafont Ribera, Gorka Iglesias Toquero

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引用次数: 1

Abstract

Concrete‐filled steel tube (CFST) columns are frequently used in construction due to their high ductility and improved loadbearing capacities. At beam‐to‐CFST column joints, gusset plates are welded to the outer face of the steel tube, and specific elements should ensure the shear transfer between the inner face of the steel tube and the concrete core. The current shear transfer systems are shear studs, internal rings, angles, steel plates, steel bars, tab stiffeners, etc. Although good, these systems also have disadvantages, such as slowing down the construction process, complexity of execution, greater material consumption and restricting the flow when pumping the concrete into the tube. UPCCFST is a new connection system that enhances the shear bond strength of CFST columns and consists of punching the steel tube inwards to produce crown‐shaped protrusions that act as shear connectors. This system also speeds up the construction process, simplifies connections, does not restrict the flow when casting the concrete and has economic and environmental advantages. Push‐out tests were performed to evaluate the shear bond strength. The shear strength improvement using UPCCFST has been compared with the reference conventional CFST columns. The new system increased the shear bond strength by up to 6.67 times for the SHS 200x4 specimens and 2.89 times for the SHS 110x2 specimens. This paper explains the UPCCFST system, the prototyping process, the testing and the most important results and observations.

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钢管混凝土柱的新型剪切传递系统

钢管混凝土（CFST）柱由于其高延性和提高的承载能力而在建筑中经常使用。在梁-钢管混凝土柱接头处，节点板焊接在钢管外表面，特定构件应确保钢管内表面和混凝土芯之间的剪切传递。目前的剪切传递系统是剪切螺柱、内环、角钢、钢板、钢筋、翼片加劲肋等。虽然这些系统很好，但也有缺点，如减缓施工过程、执行复杂、材料消耗更大以及在将混凝土泵入管道时限制流量。UPCCFST是一种新的连接系统，可提高钢管混凝土柱的抗剪粘结强度，包括向内冲压钢管，以产生充当抗剪连接件的冠状突起。该系统还加快了施工过程，简化了连接，在浇筑混凝土时不限制流动，具有经济和环境优势。进行推出试验以评估剪切粘结强度。将UPCCFST的抗剪强度改进与参考传统钢管混凝土柱进行了比较。新体系使SHS 200x4试样的剪切结合强度提高了6.67倍，使SHS 110x2试样的剪切强度提高了2.89倍。本文介绍了UPCCFST系统、原型制作过程、测试以及最重要的结果和观察结果。

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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来源期刊

Steel Construction-Design and Research CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

3.00

自引率

6.20%

发文量

期刊介绍： Steel Construction publishes peerreviewed papers covering the entire field of steel construction research. In the interests of "construction without depletion", it skilfully combines steel with other forms of construction employing concrete, glass, cables and membranes to form integrated steelwork systems. Since 2010 Steel Construction is the official journal for ECCS- European Convention for Constructional Steelwork members. You will find more information about membership on the ECCS homepage. Topics include: -Design and construction of structures -Methods of analysis and calculation -Experimental and theoretical research projects and results -Composite construction -Steel buildings and bridges -Cable and membrane structures -Structural glazing -Masts and towers -Vessels, cranes and hydraulic engineering structures -Fire protection -Lightweight structures