Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement

Ryuta Enokida; Nishio Tomoki; Kohju Ikago

doi:10.1007/978-3-031-66888-3_32

Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement

Ryuta Enokida, Nishio Tomoki, Kohju Ikago

IRIDeS - Risk Evaluation and Disaster Mitigation Research Division

Tohoku University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this report, we experimentally examine the stopper design and structural response estimation that were established for a free-standing structure to suppress its residual sliding displacement without impairing the high performance of seismic damage mitigation. For this examination, we conducted a series of shake table experiments on a free-standing single-storey structure based on the graphite-lubricated sliding interface whose friction coefficient is about 0.2, as well as a conventional structure fixed to the ground. The conventional structure suffered severe structural damage due to the yielding of its structural components when excited by excitations with intensities of Lv 2, corresponding to a major earthquake in Japan, and its 1.4-fold. Contrarily, the free-standing structure did not suffer such damage under the same excitations, because of the base isolation effect of sliding. However, it had large residual sliding displacement (over 100 mm) after each excitation. Under the same excitations, the free-standing structure with cushion stoppers, which was made by following the stopper design, effectively restrained the residual sliding displacement around 10 mm, without losing the high preformation of seismic damage mitigation. In these experiments, the shear coefficients provided by the structural response estimation were sufficiently close to the actual values of the superstructures in the free-standing structures. This study clarified the effectiveness of the stopper design and structural response estimation in reducing the residual sliding displacement and maintaining the high performance of structural damage mitigation.

Original language	English
Title of host publication	Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI
Editors	Bahadir Sadan, Cuneyt Tuzun, Mustafa Erdik
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	400-409
Number of pages	10
ISBN (Print)	9783031668876
DOIs	https://doi.org/10.1007/978-3-031-66888-3_32
Publication status	Published - 2024
Event	18th World Conference on Seismic Isolation, Energy Dissipation, and Active Vibration Control of Structures, WCSI 2023 - Antalya, Turkey Duration: 2023 Nov 6 → 2023 Nov 10

Publication series

Name	Lecture Notes in Civil Engineering
Volume	533 LNCE
ISSN (Print)	2366-2557
ISSN (Electronic)	2366-2565

Conference

Conference	18th World Conference on Seismic Isolation, Energy Dissipation, and Active Vibration Control of Structures, WCSI 2023
Country/Territory	Turkey
City	Antalya
Period	23/11/6 → 23/11/10

Keywords

base-isolate structure
cushion stopper
free-standing structure
graphite lubrication
residual sliding displacement
sliding interface

Access to Document

10.1007/978-3-031-66888-3_32

Cite this

Enokida, R., Tomoki, N., & Ikago, K. (2024). Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement. In B. Sadan, C. Tuzun, & M. Erdik (Eds.), Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI (pp. 400-409). (Lecture Notes in Civil Engineering; Vol. 533 LNCE). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-66888-3_32

Enokida, Ryuta ; Tomoki, Nishio ; Ikago, Kohju. / Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement. Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI. editor / Bahadir Sadan ; Cuneyt Tuzun ; Mustafa Erdik. Springer Science and Business Media Deutschland GmbH, 2024. pp. 400-409 (Lecture Notes in Civil Engineering).

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abstract = "In this report, we experimentally examine the stopper design and structural response estimation that were established for a free-standing structure to suppress its residual sliding displacement without impairing the high performance of seismic damage mitigation. For this examination, we conducted a series of shake table experiments on a free-standing single-storey structure based on the graphite-lubricated sliding interface whose friction coefficient is about 0.2, as well as a conventional structure fixed to the ground. The conventional structure suffered severe structural damage due to the yielding of its structural components when excited by excitations with intensities of Lv 2, corresponding to a major earthquake in Japan, and its 1.4-fold. Contrarily, the free-standing structure did not suffer such damage under the same excitations, because of the base isolation effect of sliding. However, it had large residual sliding displacement (over 100 mm) after each excitation. Under the same excitations, the free-standing structure with cushion stoppers, which was made by following the stopper design, effectively restrained the residual sliding displacement around 10 mm, without losing the high preformation of seismic damage mitigation. In these experiments, the shear coefficients provided by the structural response estimation were sufficiently close to the actual values of the superstructures in the free-standing structures. This study clarified the effectiveness of the stopper design and structural response estimation in reducing the residual sliding displacement and maintaining the high performance of structural damage mitigation.",

keywords = "base-isolate structure, cushion stopper, free-standing structure, graphite lubrication, residual sliding displacement, sliding interface",

author = "Ryuta Enokida and Nishio Tomoki and Kohju Ikago",

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Enokida, R, Tomoki, N & Ikago, K 2024, Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement. in B Sadan, C Tuzun & M Erdik (eds), Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI. Lecture Notes in Civil Engineering, vol. 533 LNCE, Springer Science and Business Media Deutschland GmbH, pp. 400-409, 18th World Conference on Seismic Isolation, Energy Dissipation, and Active Vibration Control of Structures, WCSI 2023, Antalya, Turkey, 23/11/6. https://doi.org/10.1007/978-3-031-66888-3_32

Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement. / Enokida, Ryuta; Tomoki, Nishio; Ikago, Kohju.
Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI. ed. / Bahadir Sadan; Cuneyt Tuzun; Mustafa Erdik. Springer Science and Business Media Deutschland GmbH, 2024. p. 400-409 (Lecture Notes in Civil Engineering; Vol. 533 LNCE).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Enokida, Ryuta

AU - Tomoki, Nishio

AU - Ikago, Kohju

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.

PY - 2024

Y1 - 2024

N2 - In this report, we experimentally examine the stopper design and structural response estimation that were established for a free-standing structure to suppress its residual sliding displacement without impairing the high performance of seismic damage mitigation. For this examination, we conducted a series of shake table experiments on a free-standing single-storey structure based on the graphite-lubricated sliding interface whose friction coefficient is about 0.2, as well as a conventional structure fixed to the ground. The conventional structure suffered severe structural damage due to the yielding of its structural components when excited by excitations with intensities of Lv 2, corresponding to a major earthquake in Japan, and its 1.4-fold. Contrarily, the free-standing structure did not suffer such damage under the same excitations, because of the base isolation effect of sliding. However, it had large residual sliding displacement (over 100 mm) after each excitation. Under the same excitations, the free-standing structure with cushion stoppers, which was made by following the stopper design, effectively restrained the residual sliding displacement around 10 mm, without losing the high preformation of seismic damage mitigation. In these experiments, the shear coefficients provided by the structural response estimation were sufficiently close to the actual values of the superstructures in the free-standing structures. This study clarified the effectiveness of the stopper design and structural response estimation in reducing the residual sliding displacement and maintaining the high performance of structural damage mitigation.

AB - In this report, we experimentally examine the stopper design and structural response estimation that were established for a free-standing structure to suppress its residual sliding displacement without impairing the high performance of seismic damage mitigation. For this examination, we conducted a series of shake table experiments on a free-standing single-storey structure based on the graphite-lubricated sliding interface whose friction coefficient is about 0.2, as well as a conventional structure fixed to the ground. The conventional structure suffered severe structural damage due to the yielding of its structural components when excited by excitations with intensities of Lv 2, corresponding to a major earthquake in Japan, and its 1.4-fold. Contrarily, the free-standing structure did not suffer such damage under the same excitations, because of the base isolation effect of sliding. However, it had large residual sliding displacement (over 100 mm) after each excitation. Under the same excitations, the free-standing structure with cushion stoppers, which was made by following the stopper design, effectively restrained the residual sliding displacement around 10 mm, without losing the high preformation of seismic damage mitigation. In these experiments, the shear coefficients provided by the structural response estimation were sufficiently close to the actual values of the superstructures in the free-standing structures. This study clarified the effectiveness of the stopper design and structural response estimation in reducing the residual sliding displacement and maintaining the high performance of structural damage mitigation.

KW - base-isolate structure

KW - cushion stopper

KW - free-standing structure

KW - graphite lubrication

KW - residual sliding displacement

KW - sliding interface

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Enokida R, Tomoki N, Ikago K. Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement. In Sadan B, Tuzun C, Erdik M, editors, Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures - 18th World Conference on Seismic Isolation 18WCSI. Springer Science and Business Media Deutschland GmbH. 2024. p. 400-409. (Lecture Notes in Civil Engineering). doi: 10.1007/978-3-031-66888-3_32

Experimental Examinations of Free-Standing Structures with/without Cushion Stoppers for the Suppression of the Residual Sliding Displacement

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