Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments

Kazuhiko Kawashima; Richelle G. Zafra; Tomohiro Sasaki; Koichi Kajiwara; Manabu Nakayama; Shigeki Unjoh; Junichi Sakai; Kenji Kosa; Yoshikazu Takahashi; Masaaki Yabe

doi:10.1080/13632469.2011.651558

Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments

Kazuhiko Kawashima, Richelle G. Zafra, Tomohiro Sasaki, Koichi Kajiwara, Manabu Nakayama, Shigeki Unjoh, Junichi Sakai, Kenji Kosa, Yoshikazu Takahashi, Masaaki Yabe

ENG - Civil and Environmental Engineering

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

23 Citations (Scopus)

Abstract

E-Defense shake table experiments on a 7.5 m tall, 1.8 m by 1.8 m square bridge column using polypropylene fiber-reinforced cement composites (PFRC) at the plastic hinge region and part of the footing is presented. The column was excited using 80% of the original intensity of the near-field ground motion recorded at the JR Takatori Station during the 1995 Kobe, Japan earthquake. Use of PFRC mitigated cover and core concrete damage, local buckling of longitudinal bars, and deformation of ties even after six times of repeated excitation. The damage sustained was much less than the damage of regular reinforced concrete columns.

Original language	English
Pages (from-to)	463-495
Number of pages	33
Journal	Journal of Earthquake Engineering
Volume	16
Issue number	4
DOIs	https://doi.org/10.1080/13632469.2011.651558
Publication status	Published - 2012 May 1

Keywords

Bridges
E-Defense
Polypropylene Fiber-Reinforced Cement Composite
Seismic Design
Seismic Response
Shake Table Experiment

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10.1080/13632469.2011.651558

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Kawashima, K., Zafra, R. G., Sasaki, T., Kajiwara, K., Nakayama, M., Unjoh, S., Sakai, J., Kosa, K., Takahashi, Y., & Yabe, M. (2012). Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments. Journal of Earthquake Engineering, 16(4), 463-495. https://doi.org/10.1080/13632469.2011.651558

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title = "Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments",

abstract = "E-Defense shake table experiments on a 7.5 m tall, 1.8 m by 1.8 m square bridge column using polypropylene fiber-reinforced cement composites (PFRC) at the plastic hinge region and part of the footing is presented. The column was excited using 80% of the original intensity of the near-field ground motion recorded at the JR Takatori Station during the 1995 Kobe, Japan earthquake. Use of PFRC mitigated cover and core concrete damage, local buckling of longitudinal bars, and deformation of ties even after six times of repeated excitation. The damage sustained was much less than the damage of regular reinforced concrete columns.",

keywords = "Bridges, E-Defense, Polypropylene Fiber-Reinforced Cement Composite, Seismic Design, Seismic Response, Shake Table Experiment",

author = "Kazuhiko Kawashima and Zafra, {Richelle G.} and Tomohiro Sasaki and Koichi Kajiwara and Manabu Nakayama and Shigeki Unjoh and Junichi Sakai and Kenji Kosa and Yoshikazu Takahashi and Masaaki Yabe",

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Kawashima, K, Zafra, RG, Sasaki, T, Kajiwara, K, Nakayama, M, Unjoh, S, Sakai, J, Kosa, K, Takahashi, Y & Yabe, M 2012, 'Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments', Journal of Earthquake Engineering, vol. 16, no. 4, pp. 463-495. https://doi.org/10.1080/13632469.2011.651558

TY - JOUR

T1 - Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments

AU - Kawashima, Kazuhiko

AU - Zafra, Richelle G.

AU - Sasaki, Tomohiro

AU - Kajiwara, Koichi

AU - Nakayama, Manabu

AU - Unjoh, Shigeki

AU - Sakai, Junichi

AU - Kosa, Kenji

AU - Takahashi, Yoshikazu

AU - Yabe, Masaaki

PY - 2012/5/1

Y1 - 2012/5/1

N2 - E-Defense shake table experiments on a 7.5 m tall, 1.8 m by 1.8 m square bridge column using polypropylene fiber-reinforced cement composites (PFRC) at the plastic hinge region and part of the footing is presented. The column was excited using 80% of the original intensity of the near-field ground motion recorded at the JR Takatori Station during the 1995 Kobe, Japan earthquake. Use of PFRC mitigated cover and core concrete damage, local buckling of longitudinal bars, and deformation of ties even after six times of repeated excitation. The damage sustained was much less than the damage of regular reinforced concrete columns.

AB - E-Defense shake table experiments on a 7.5 m tall, 1.8 m by 1.8 m square bridge column using polypropylene fiber-reinforced cement composites (PFRC) at the plastic hinge region and part of the footing is presented. The column was excited using 80% of the original intensity of the near-field ground motion recorded at the JR Takatori Station during the 1995 Kobe, Japan earthquake. Use of PFRC mitigated cover and core concrete damage, local buckling of longitudinal bars, and deformation of ties even after six times of repeated excitation. The damage sustained was much less than the damage of regular reinforced concrete columns.

KW - Bridges

KW - E-Defense

KW - Polypropylene Fiber-Reinforced Cement Composite

KW - Seismic Design

KW - Seismic Response

KW - Shake Table Experiment

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Seismic performance of a full-size polypropylene fiber-reinforced cement composite bridge column based on E-defense shake table experiments

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