Effect of warping restraint of beams to column joint on lateral buckling behavior for H-shaped beams with continuous braces under gradient flexural moment

Yoshihiro Kimura; Mutsumi Miya

doi:10.3130/aijs.84.1601

Effect of warping restraint of beams to column joint on lateral buckling behavior for H-shaped beams with continuous braces under gradient flexural moment

Yoshihiro Kimura, Mutsumi Miya

New Industry Creation Hatchery Center (NICHe)

Research output: Contribution to journal › Article › peer-review

Abstract

When a steel moment frame is subjected to seismic force, H-shaped beams carry the gradient flexural moment. In Japanese steel moment resisting frames, H-shaped beams are rigidly connected to the box sectional columns, which have high warping restraint against lateral buckling deformation of beams. On the other hand, it is effective for continuous braces to prevent the lateral bucking. In this paper, the lateral buckling behavior for H-shaped beams with warping restraint and continuous braces under gradient flexural moment is clarified and elasto-plastic buckling stresses of beams and lateral stiffing force and rotational stiffing moment of continuous braces are evaluated.

Original language	English
Pages (from-to)	1601-1611
Number of pages	11
Journal	Journal of Structural and Construction Engineering
Volume	84
Issue number	766
DOIs	https://doi.org/10.3130/aijs.84.1601
Publication status	Published - 2019 Jan 1

Keywords

Continuous Braces
Lateral Buckling
Required Rigidity
Stiffening Force
Warping Restraint

ASJC Scopus subject areas

Architecture
Building and Construction

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title = "Effect of warping restraint of beams to column joint on lateral buckling behavior for H-shaped beams with continuous braces under gradient flexural moment",

abstract = "When a steel moment frame is subjected to seismic force, H-shaped beams carry the gradient flexural moment. In Japanese steel moment resisting frames, H-shaped beams are rigidly connected to the box sectional columns, which have high warping restraint against lateral buckling deformation of beams. On the other hand, it is effective for continuous braces to prevent the lateral bucking. In this paper, the lateral buckling behavior for H-shaped beams with warping restraint and continuous braces under gradient flexural moment is clarified and elasto-plastic buckling stresses of beams and lateral stiffing force and rotational stiffing moment of continuous braces are evaluated.",

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N2 - When a steel moment frame is subjected to seismic force, H-shaped beams carry the gradient flexural moment. In Japanese steel moment resisting frames, H-shaped beams are rigidly connected to the box sectional columns, which have high warping restraint against lateral buckling deformation of beams. On the other hand, it is effective for continuous braces to prevent the lateral bucking. In this paper, the lateral buckling behavior for H-shaped beams with warping restraint and continuous braces under gradient flexural moment is clarified and elasto-plastic buckling stresses of beams and lateral stiffing force and rotational stiffing moment of continuous braces are evaluated.

AB - When a steel moment frame is subjected to seismic force, H-shaped beams carry the gradient flexural moment. In Japanese steel moment resisting frames, H-shaped beams are rigidly connected to the box sectional columns, which have high warping restraint against lateral buckling deformation of beams. On the other hand, it is effective for continuous braces to prevent the lateral bucking. In this paper, the lateral buckling behavior for H-shaped beams with warping restraint and continuous braces under gradient flexural moment is clarified and elasto-plastic buckling stresses of beams and lateral stiffing force and rotational stiffing moment of continuous braces are evaluated.

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KW - Required Rigidity

KW - Stiffening Force

KW - Warping Restraint

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