Cyclic hysteresis behavior and plastic deformation capacity for H-shaped beams on local buckling under compressive and tensile forces

Yoshihiro Kimura; Teruaki Yamanishi; Kazuhiko Kasai

doi:10.3130/aijs.78.1307

Cyclic hysteresis behavior and plastic deformation capacity for H-shaped beams on local buckling under compressive and tensile forces

Yoshihiro Kimura, Teruaki Yamanishi, Kazuhiko Kasai

ENG - Architecture and Building Science

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

10 Citations (Scopus)

Abstract

In passive controlled buildings, H-shaped beams connected to steel dampers are subjected to the cyclic axial force in addition to the flexural moment during earthquake, and then the plastic deformation capacity of H shaped beams may decrease because of compressive forces. The direction and magnitude of axial force from dampers changes with the flexural moment, so that the local buckling of the beams under the tensile axial force does not occur. This paper conducts the cyclic axial and shearing forces of H-shaped beams, and investigates the local buckling behavior. The plastic deformation capacity and hysteresis energy of the beams are clarified.

Original language	English
Pages (from-to)	1307-1316
Number of pages	10
Journal	Journal of Structural and Construction Engineering
Volume	78
Issue number	689
DOIs	https://doi.org/10.3130/aijs.78.1307
Publication status	Published - 2013 Jul

Keywords

H-shaped beam
Local buckling
Plastic deformation capacity
Reversed axial force
Steel frame with dampers
Width-thickness ratio

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10.3130/aijs.78.1307

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title = "Cyclic hysteresis behavior and plastic deformation capacity for H-shaped beams on local buckling under compressive and tensile forces",

abstract = "In passive controlled buildings, H-shaped beams connected to steel dampers are subjected to the cyclic axial force in addition to the flexural moment during earthquake, and then the plastic deformation capacity of H shaped beams may decrease because of compressive forces. The direction and magnitude of axial force from dampers changes with the flexural moment, so that the local buckling of the beams under the tensile axial force does not occur. This paper conducts the cyclic axial and shearing forces of H-shaped beams, and investigates the local buckling behavior. The plastic deformation capacity and hysteresis energy of the beams are clarified.",

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T1 - Cyclic hysteresis behavior and plastic deformation capacity for H-shaped beams on local buckling under compressive and tensile forces

AU - Kimura, Yoshihiro

AU - Yamanishi, Teruaki

AU - Kasai, Kazuhiko

PY - 2013/7

Y1 - 2013/7

N2 - In passive controlled buildings, H-shaped beams connected to steel dampers are subjected to the cyclic axial force in addition to the flexural moment during earthquake, and then the plastic deformation capacity of H shaped beams may decrease because of compressive forces. The direction and magnitude of axial force from dampers changes with the flexural moment, so that the local buckling of the beams under the tensile axial force does not occur. This paper conducts the cyclic axial and shearing forces of H-shaped beams, and investigates the local buckling behavior. The plastic deformation capacity and hysteresis energy of the beams are clarified.

AB - In passive controlled buildings, H-shaped beams connected to steel dampers are subjected to the cyclic axial force in addition to the flexural moment during earthquake, and then the plastic deformation capacity of H shaped beams may decrease because of compressive forces. The direction and magnitude of axial force from dampers changes with the flexural moment, so that the local buckling of the beams under the tensile axial force does not occur. This paper conducts the cyclic axial and shearing forces of H-shaped beams, and investigates the local buckling behavior. The plastic deformation capacity and hysteresis energy of the beams are clarified.

KW - H-shaped beam

KW - Local buckling

KW - Plastic deformation capacity

KW - Reversed axial force

KW - Steel frame with dampers

KW - Width-thickness ratio

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DO - 10.3130/aijs.78.1307

M3 - Article

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SN - 1340-4202

VL - 78

SP - 1307

EP - 1316

JO - Journal of Structural and Construction Engineering

JF - Journal of Structural and Construction Engineering

IS - 689

ER -

Cyclic hysteresis behavior and plastic deformation capacity for H-shaped beams on local buckling under compressive and tensile forces

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