Thin-Walled CFST Columns for Enhancing Seismic Collapse Performance of High-Rise Steel Frames

Reduced web section (RWS) connections and welded flange plate (WFP) connections can both effectively improve the seismic performance of a structure by moving plastic hinges to a predetermined location away from the column face. In this paper, two kinds of steel frames—with RWS connections and WFP connections—as well as different frames with welded unreinforced flange connections were studied through seismic fragility analysis. The numerical simulation was conducted by using multiscale FE modelling. Based on the incremental dynamic analysis and pushover analysis methods, probabilistic seismic demand analysis and seismic capability analysis were carried out, respectively. Finally, combined with the above analysis results, probabilistic seismic fragility analysis was conducted on the frame models. The results showed that the RWS connection and WFP connection (without double plates) have little influence on reducing the maximum inter-storey drift ratio under earthquake action. RWS connections slightly reduce the seismic capability in non-collapse stages and improve the seismic collapse resistance of a structure, which exhibits good structural ductility. WFP connections can comprehensively improve the seismic capability of a structure, but the seismic collapse resistance is worse than that of RWS connections when the structure has a large number of storeys. The frame with WFP connections has a lower failure probability at every seismic limit state, while the frame with RWS connections sacrifices some of its structural safety in non-collapse stages to reduce the collapse probability.

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Stochastic seismic collapse and reliability assessment of high-rise reinforced concrete structures

The Structural Design of Tall and Special Buildings ◽

10.1002/tal.1417 ◽

2017 ◽

Vol 27 (2) ◽

pp. e1417 ◽

Cited By ~ 4

Author(s):

Jie Li ◽

Hao Zhou ◽

Yanqiong Ding

Keyword(s):

Reinforced Concrete ◽

Reliability Assessment ◽

Concrete Structures ◽

Reinforced Concrete Structures ◽

High Rise ◽

Seismic Collapse

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FINITE ELEMENT ANALYSIS OF A THREE-DIMENSIONAL HIGH-RISE FRAME STRUCTURE BASED ON THE THIN-WALLED BEAM THEORY : Study on structural analysis of a high-rise building by the thin-walled beam theory Part 1

Journal of Structural and Construction Engineering (Transactions of AIJ) ◽

10.3130/aijsx.453.0_65 ◽

1993 ◽

Vol 453 (0) ◽

pp. 65-75

Author(s):

Daiji FUJII ◽

Yoshinobu FUJITANI

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Structural Analysis ◽

Three Dimensional ◽

Beam Theory ◽

Frame Structure ◽

Element Analysis ◽

High Rise ◽

High Rise Building ◽

Thin Walled

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Research on Compression Behavior of Square Thin-Walled CFST Columns with Steel-Bar Stiffeners

Applied Sciences ◽

10.3390/app8091602 ◽

2018 ◽

Vol 8 (9) ◽

pp. 1602 ◽

Cited By ~ 9

Author(s):

Zhao Yang ◽

Chengxiang Xu

Keyword(s):

Bearing Capacity ◽

Local Buckling ◽

Steel Tube ◽

Steel Tubes ◽

Compression Behavior ◽

Steel Bar ◽

Steel Bars ◽

Thin Walled ◽

Structural Measure ◽

Cfst Columns

Local buckling in steel tubes was observed to be capable of reducing the ultimate loads of thin-walled concrete-filled steel-tube (CFST) columns under axial compression. To strengthen the steel tubes, steel bars were proposed in this paper to be used as stiffeners fixed onto the tubes. Static-loading tests were conducted to study the compression behavior of square thin-walled CFST columns with steel bar stiffeners placed inside or outside the tube. The effect and feasibility of steel bar stiffeners were studied through the analysis of failure mode, load–displacement relationship, ultimate load, ductility, and local buckling. Different setting methods of steel bars were compared as well. The results showed that steel-bar stiffeners proposed in this paper can be effective in delaying local buckling as well as increasing the bearing capacity of the columns, but will decrease the ductility of the columns. In order to obtain a higher bearing capacity of columns, steel bars with low stiffness should be placed inside and steel bars with high stiffness should be placed outside of the steel tubes. The study is helpful in providing reference to the popularization and application of this new structural measure to avoid or delay the local buckling of thin-walled CFST columns.

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On the Thin-Walled Theory’s Application to Calculate the Semi-enclosed Core Structure of High-Rise Buildings

10.1007/978-981-16-3239-6_67 ◽

2021 ◽

pp. 866-874

Author(s):

Nguyen Tien Chuong ◽

Doan Xuan Quy

Keyword(s):

Core Structure ◽

High Rise ◽

Thin Walled

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Concretes with Unique Properties for Special Building Structures

Materials Science Forum ◽

10.4028/www.scientific.net/msf.945.64 ◽

2019 ◽

Vol 945 ◽

pp. 64-69 ◽

Cited By ~ 1

Author(s):

V. Solovyova ◽

D. Solovyov ◽

I. Stepanova

Keyword(s):

Building Materials ◽

Water Resistance ◽

High Efficiency ◽

Silica Sol ◽

Building Structures ◽

High Rise ◽

Concrete Properties ◽

Complex Additive ◽

Potassium Nitrite ◽

Thin Walled

The paper presents new results in the building materials area. One of the solutions of the thin-walled elements obtaining can be achieved due to new additive using. The main purpose of the paper was improvement concrete properties for thin-walled constructive elements. The experimental and standard methods have been used and new complex additive for concrete. The research shows that a comprehensive additive consisting of aqueous solution of polycarboxilate polymer, silica sol and potassium nitrite is effective and makes it possible to produce high-efficiency concrete with unique properties: higher compression strength, higher crack resistance, frost resistance, water resistance, abrasion resistance. The study shows that the concrete is chemical resistant. Modified concrete can be recommended for manufacturing critical concrete structures of special purpose, for example high-rise constriction.

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Buckling Analysis and Section Optimum for Square Thin-Wall CFST Columns Sealed by Self-Tapping Screws

Advances in Civil Engineering ◽

10.1155/2019/2658757 ◽

2019 ◽

Vol 2019 ◽

pp. 1-14

Author(s):

He Zhang ◽

Kai Wu ◽

Chao Xu ◽

Lijian Ren ◽

Feng Chen

Keyword(s):

Bearing Capacity ◽

Failure Modes ◽

Steel Plate ◽

Local Buckling ◽

Steel Tube ◽

Thin Wall ◽

Type Section ◽

Plate Buckling ◽

Thin Walled ◽

Cfst Columns

Two columns of thin-walled concrete-filled steel tubes (CFSTs), in which tube seams are connected by self-tapping screws, are axial compression tested and FEM simulated; the influence of local buckling on the column compression bearing capacity is discussed. Failure modes of square thin-wall CFST columns are, first, steel tube plate buckling and then the collapse of steel and concrete in some corner edge areas. Interaction between concrete and steel makes the column continue to withstand higher forces after buckling appears. A large deflection analysis for tube elastic buckling reflects that equivalent uniform stress of the steel plate in the buckling area can reach yield stress and that steel can supply enough designing stress. Aiming at failure modes of square thin-walled CFST columns, a B-type section is proposed as an improvement scheme. Comparing the analysis results, the B-type section can address both the problems of corner collapse and steel plate buckling. This new type section can better make full use of the stress of the concrete material and the steel material; this type section can also increase the compression bearing capacity of the column.

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