Hole-expanding type steel structure beam column node in short T-shaped steel connection and connection method of hole-expanding type steel structure beam column node

A technology of beam-column joints and T-shaped steel, which is applied to the processing of building components, building structures, and building materials, can solve the problems of brittle failure and insufficient ductility, and achieve the improvement of ductile deformation capacity and energy consumption capacity. Construction Convenience, quick and easy repair work

Active Publication Date: 2012-02-29
FUZHOU UNIV
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Problems solved by technology

[0005] For high-intensity fortified earthquake areas, the applicant has applied for and obtained authorized patents (Patent No.: 201020181041.2, 201010164386.1) which disclose a new type of easily repairable steel structure beam-column joint, which can better solve the traditional beam...

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  • Hole-expanding type steel structure beam column node in short T-shaped steel connection and connection method of hole-expanding type steel structure beam column node
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  • Hole-expanding type steel structure beam column node in short T-shaped steel connection and connection method of hole-expanding type steel structure beam column node

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Embodiment Construction

[0023] In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail with reference to the accompanying drawings.

[0024] refer to Figure 1~5 , a reamed beam-column node of a steel structure connected by a short T-shaped steel, comprising a steel column 1 and an H-shaped steel beam 2 whose end is vertically connected to the flange plate of the steel column 1, the H-shaped steel beam 2 The upper and lower flange plates are respectively connected to the steel column 1 flange plate through two short T-shaped steel 3, the short T-shaped steel 3 web is connected to the H-shaped steel beam 2 flange plate, and the short T-shaped steel 3 flange plate It is connected with the flange plate of the steel column 1; it also includes the flange steel backing plate 4, and the flange steel backing plate 4 connects the web of the short T-shaped steel 3 and the H-shaped steel beam 2 flange p...

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Abstract

The invention relates to a hole-expanding type steel structure beam column node in short T-shaped steel connection. The hole-expanding type steel structure beam column node comprises two pieces of short T-shaped steel, a steel column and an H-shaped steel beam of which the end is vertically connected to a flange plate of the steel column, wherein a web plate of the short T-shaped steel is connected with the flange plate of the H-shaped steel beam; and the flange plate of the short T-shaped steel is connected with the flange plate of the steel column. The hole-expanding type steel structure beam column node is characterized by also comprising a flange steel cushion plate, wherein the flange steel cushion plate connects the web plate of the short T-shaped steel and the flange plate of the H-shaped steel beam by using a friction type high-strength bolt; the flange plate of the short T-shaped steel is connected with the flange plate of the steel column by using the friction type high-strength bolt; and a bolt hole in the web plate of the short T-shaped steel is a long circular hole. The invention also relates to a connection method of the hole-expanding type steel structure beam column node in the short T-shaped steel connection. The steel structure beam column node has quite high ductile deformation capacity and excellent energy-dissipation capacity; and the brittle failure of the steel beam or the steel column in a node area under the action of a seldom-occurring earthquake can be prevented.

Description

technical field [0001] The invention relates to a beam-column node of a reamed steel structure connected by short T-shaped steel and a connection method thereof, belonging to the technical field of civil engineering. Background technique [0002] Good ductility is the key factor to ensure that the structure does not collapse under strong earthquakes, and the ductility of joints is a key factor affecting the overall ductility of the structure. Before the Northridge (Northridge) earthquake in the United States in 1994, bolted and welded connections (flange plate welding, web bolted connection) were the commonly used forms of beam-to-column connections in steel frame structures. However, in the Northridge (Northridge) earthquake in the United States in 1994 and the Hanshin earthquake in Japan in 1995, the steel frame that was once considered to have good seismic performance suffered a lot of damage, most of which were caused by beam-column bolted joints. Brittle fracture (that...

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Application Information

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IPC IPC(8): E04B1/58E04B1/98E04G21/14
Inventor 黄冀卓陈宝春
Owner FUZHOU UNIV
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