I‐beam to RHS‐column joints with welded studs under cyclic loading

  1. García, Ismael 2
  2. López‐Colina, Carlos 2
  3. Serrano, Miguel A. 2
  4. Wang, Yong 1
  1. 1 University of Manchester
    info

    University of Manchester

    Mánchester, Reino Unido

    ROR https://ror.org/027m9bs27

  2. 2 Universidad de Oviedo
    info

    Universidad de Oviedo

    Oviedo, España

    ROR https://ror.org/006gksa02

Revista:
ce/papers

ISSN: 2509-7075 2509-7075

Año de publicación: 2023

Volumen: 6

Número: 3-4

Páginas: 1228-1232

Tipo: Artículo

DOI: 10.1002/CEPA.2236 GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: ce/papers

Objetivos de desarrollo sostenible

Resumen

The design of removable beam-column joints between open structural steel beams and rectangular hollow section (RHS) columns is not easy because of the inaccessibility to the tube interior from outside. I-beam to RHS-column joints with threaded welded studs are of great interest due to their low-cost assembling technique and easy on-site execution. This study examines the cyclic performance of these joints with welded studs. A quasi-static experimental study on the cyclic response of eight joint specimens is described. The strength of the joint and the failure modes were revealed. The ductility of the joints was also evaluated according to the rotation capacity after yielding, classifying all of them as having intermediate ductility and, therefore, implying some capacity to withstand limited plastic deformations when subjected to seismic forces. Some equations were also used to classify the joints according to the components that mainly govern the deformation of the full joint. In addition, the energy dissipation rate was assessed for all the specimens, finding the highest energy dissipation rates in the most rigid joints.

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Referencias bibliográficas

  • EN 1993-1-8: 2005 - Eurocode 3: Design of Steel Structures - Part 1-8: Design of Joints. Eurocode 3 2005.
  • Gioncu, V. Framed Structures. Ductility and Seismic Response. J. Constr. Steel Res. 2000, 55 (1–3), 125–154. https://doi-org.uniovi.idm.oclc.org/10.1016/S0143-974X(99)00081-4.
  • Serrano-López, M. A., López-Colina, C., Wang, Y. C., Lozano, M., García, I., Gayarre, F. L. An Experimental Study of I Beam-RHS Column Demountable Joints with Welded Studs. J. Constr. Steel Res. 2021, 182, 106651. https://doi-org.uniovi.idm.oclc.org/10.1016/j.jcsr.2021.106651.
  • García, I., Serrano, M. A., López-colina, C., Gayarre, F. L., Suárez, J. M. Approaches to the Mechanical Properties of Threaded Studs Welded to RHS Columns. Materials (Basel). 2021. https://doi-org.uniovi.idm.oclc.org/10.3390/ma14061429.
  • Applied Technology Council. Interim Protocols For Determining Seismic Performance Characteristics of Structural and Nonstructural Components Through Laboratory Testing. FEMA 461. 2007.
  • Bernuzzi, C., Zandonini, R., Zanon, P. Experimental Analysis and Modelling of Semi-Rigid Steel Joints under Cyclic Reversal Loading. J. Constr. Steel Res. 1996, 38 (2), 95–123. https://doi-org.uniovi.idm.oclc.org/10.1016/0143-974X(96)00013-2.
  • García, I., Serrano, M. A., López-Colina, C., Gayarre, F. L. The Stiffness of Beam-to-RHS Joints with Welded Studs. J. Build. Eng. 2023, 70, 106340. https://doi-org.uniovi.idm.oclc.org/10.1016/j.jobe.2023.106340.
  • Dujmovic, D., Androic, B., Piskovic, J. Modelling of Joint Behaviour in Steel Frames. In Annual 2010/2011 of the Croatian Academy of Engineering; Zagreb, 2012.
  • Jaspart, J. P., Weynand, K. Design of Hollow Section Joints Using the Component Method. In Tubular Structures - Proceedings of the 15th International Symposium on Tubular Structures, ISTS 2015; 2015. https://doi-org.uniovi.idm.oclc.org/10.1201/b18410-62.
  • GB50011-2010. Code for Seismic Design of Buildings. 2010.
  • Yin, Z., Huang, Z., Zhang, H., Feng, D. Experimental Study on Energy Dissipation Performance and Failure Mode of Web-Connected Replaceable Energy Dissipation Link. Appl. Sci. 2019, Vol. 9, Page 3200 2019, 9 (15), 3200. https://doi-org.uniovi.idm.oclc.org/10.3390/APP9153200.
  • Eurocode 8. Design of Structures for Earthquake Resistance—Part 1: General Rules, Seismic Actions and Rules for Buildings (EN 1998-1: 2004). Eur. Comm. Norm. Brussels 2004.
  • ANSI/AISC. 360-16 Specification for Structural Steel Buildings. Am. Inst. Steel Constr. 2016.