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Journal of Earthquake Engineering Volume 26, 2022 - Issue 13
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Research Article

Experimental Study on Miniature Buckling-restrained Brace with Corrugated Core Bar

Tianyu Gua Institute of Engineering Mechanics, China Earthquake Administration, Key Laboratory of Earthquake, Harbin, China;b Key Laboratory of Earthquake, Department of Structural Engineering, College of Civil Engineering, Tongji University, Shanghai, China
,
Jiong-Hui Lib Key Laboratory of Earthquake, Department of Structural Engineering, College of Civil Engineering, Tongji University, Shanghai, China
,
Jubo Sunc Department of Civil Engineering, Meijo University, Nagoya, Japan
,
Liang-Jiu Jiad Department of Department of Disaster Mitigation for Structures, College of Civil Engineering, Tongji University, Shanghai, ChinaCorrespondence[email protected]
,
Tao Liua Institute of Engineering Mechanics, China Earthquake Administration, Key Laboratory of Earthquake, Harbin, China
&
Hanbin Gec Department of Civil Engineering, Meijo University, Nagoya, JapanCorrespondence[email protected]
Pages 6633-6655 | Received 12 Dec 2020, Accepted 18 Apr 2021, Published online: 25 May 2021

References

  • AISC341-10. 2010. Seismic provisions for structural steel buildings. Chicago, Illinois: American Institute of Steel Construction.
  • Amaris Mesa, A. 2010. Developments of advanced solutions for seismic resisting precast concrete frames. Canterbury: University of Canterbury.
  • Andisheh, K., R. Liu, and A. Palermo. 2018. Cyclic behavior of corroded fuse-type dissipaters for posttensioned rocking bridges. Journal of Bridge Engineering 23 (4): 04018008.
  • Christopoulos, C., A. Filiatrault, C. M. Uang, and B. Folz. 2002. Posttensioned energy dissipating connections for moment-resisting steel frames. Journal of Structural Engineering 128 (9): 1111–20.
  • Guan, D. Z., S. Yang, L. J. Jia, and Z. X. Guo. 2020a. Development of miniature bar-type structural fuses with cold formed bolted connections. Steel & Composite Structures 34 (1): 53–73.
  • Guan, D. Z., S. Yang, Y. Liu, H. B. Ge, and Z. X. Guo. 2020b. Concept and behaviour of all-steel miniature bar-typed structural fuses with torsional effect. The Journal of Constructional Steel Research 164: 105795.
  • Guan, D. Z., S. Yang, Z. Wang, L. J. Jia, Z. X. Guo, and H. B. Ge. 2020c. Concept and behaviour of miniature bar-typed structural fuses with eccentricity. The Journal of Constructional Steel Research 166: 105923.
  • Liu, R., and A. Palermo. 2020. Characterization of filler-free buckling restrained fuse-type energy dissipation device for seismic applications. Journal of Structural Engineering 146 (5): 04020059.
  • Liu, Y., C. L. Wang, and J. Wu. 2018. Development of a new partially restrained energy dissipater: Experimental and numerical analyses. Steel & Composite Structures 147: 367–79.
  • Mander, T., G. Rodgers, J. Chase, J. Mander, G. MacRae, and R. Dhakal. 2009. A damage avoidance design steel beamcolumn moment connection using high-force-to-volume dissipators. Journal of Structural Engineering 135 (11): 1390–97.
  • Marriott, D., S. Pampanin, and A. Palermo. 2009. Quasi‐static and pseudo‐dynamic testing of unbonded post‐tensioned rocking bridge piers with external replaceable dissipaters. Earthquake Engineering & Structural Dynamics 38 (3): 331–54.
  • Maurya, A., M. R. Eatherton, R. Matsui, and S. H. Florig. 2016. Experimental investigation of miniature buckling restrained braces for use as structural fuses. The Journal of Constructional Steel Research 127: 54–65.
  • Pandikkadavatha, M. S., and D. R. Sahoo. 2016. Cyclic testing of short-length buckling-restrained braces with detachable casings. Earthquake Engineering and Structural Dynamics 10 (3): 699–716.
  • Priestley, M. N., and J. R. Tao. 1993. Seismic response of precast prestressed concrete frames with partially debonded tendons. PCI Journal 38 (1): 58–69.
  • Sarti, F., A. Palermo, and S. Pampanin. 2016. Fuse-type external replaceable dissipaters: Experimental program and numerical modeling. Journal of Structural Engineering 142 (12): 04016134.
  • Tabatabaei, S. A. R., S. R. Mirghaderi, and A. Hosseini. 2014. Experimental and numerical developing of reduced length buckling-restrained braces. Engineering Structures 77: 143–60.
  • Tagawa, H., Y. Nagoya, and X. Chen. 2020. Bolted beam-to-column connection with buckling-restrained round steel bar dampers. The Journal of Constructional Steel Research 169: 106036.
  • Wang, B., and S. Zhu. 2018. Cyclic tension-compression behavior of superelastic shape memory alloy bars with buckling-restrained devices, Constr. Building Materials 186: 103–13.
  • Wang, C. L., Y. Liu, and L. Zhou. 2018. Experimental and numerical studies on hysteretic behavior of all-steel bamboo-shaped energy dissipaters. Engineering Structures 165: 38–49.
  • Wang, C. L., Y. Liu, L. Zhou, G. Zhou, and Z. Lu. 2018. Concept and performance testing of an aluminum alloy bamboo‐shaped energy dissipater. The Structural Design of Tall and Special Buildings 27 (4): e1444.
  • White, S., and A. Palermo. 2016. Quasi-static testing of posttensioned nonemulative column-footing connections for bridge piers. Journal of Bridge Engineering 21 (6): 04016025.
  • White, S. L. 2014. Controlled damage rocking systems for accelerated bridge construction. Canterbury: University of Canterbury.
  • Xie, Q. 2005. State of the art of buckling-restrained braces in Asia. The Journal of Constructional Steel Research 61 (6): 727–48.
  • Yang, S., D. Z. Guan, L. J. Jia, Z. X. Guo, and H. B. Ge. 2019. Local bulging analysis of a restraint tube in a new buckling-restrained brace. The Journal of Constructional Steel Research 161: 98–113.
  • Zhou, Y. Y., L. Ye, and C. L. Wang. 2020. Parametric studies and design method for a new all-steel bamboo-shaped energy dissipater. Journal of Earthquake Engineering 1–18. doi:10.1080/13632469.2020.1784314

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