DIAPHRAGM ACTION OF SANDWICH PANELS IN PIN-JOINTED STEEL STRUCTURES: A SEISMIC STUDY

• Published in: Journal of earthquake engineering : JEE Vol. 4; no. 3; pp. 251 - 275
• Main Authors: DE MATTEIS, GIANFRANCO, LANDOLFO, RAFFAELE
• Format: Journal Article
• Language: English
• Published: London Taylor & Francis Group 01.07.2000; Imperial College Press
• Subjects: Dissipative system; Earth sciences; Earth, ocean, space; Earthquakes, seismology; Engineering and environment geology. Geothermics; Engineering geology; Exact sciences and technology; hysteretic model; Internal geophysics; q-factor; sandwich panels; seismic analysis; stressed skin design; steel; stress; Q; models; seismic response; ductility; shear; shear tests; ground motion; earthquakes; soil-structure interface; seismicity
• ISSN: 1363-2469; 1559-808X
• DOI: 10.1080/13632460009350371

The paper focuses on the seismic response of steel pin-jointed frames braced by lightweight cladding panels. In particular, with the aim to investigate the performance of such a structural scheme when acting as a dissipative system, a wide numerical study has been developed. It is based upon available shear tests on screwed sandwich panels, whose experimental cyclic responses are properly incorporated into a scope-oriented, computer program. The goal is firstly to check the possibility of using cladding panels as shear diaphragms in seismic areas and then to assess an appropriate design behaviour factor, accounting for their actual hysteretic response. Key findings from the nonlinear dynamic analyses are: (1) a portal frame steel building in a low-medium seismicity zone may be braced by common cladding panels, completely avoiding the use of other bracing systems; (2) this structural solution, if compared with a conventional one, appears to be more efficient and cost-effective, giving rise to a weight saving which, in the case under examination, reaches a value of about 20%; (3) on the basis of the numerical study a design behaviour factor q d =2 seems to be realistic for such a structural typology.