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Título: Testing and analysis of light gauge steel frame 9 mm OSB wood panel shear walls
Autores: Blais, Caroline, 1980-
Fecha: 2006
Publicador: McGill University - MCGILL
Fuente:
Tipo: Electronic Thesis or Dissertation
Tema: Engineering, Civil.
Descripción: The use of light steel gauge framed walls in the residential and commercial sector is increasing in popularity. However, our knowledge of the performance and the behaviour of structures using such walls when subjected to lateral wind and seismic loads is limited. At present, no design method for light gauge steel shear walls is contained in Canadian codes or standards. For this reason a research project on steel frame/wood panel shear walls was undertaken.
A comprehensive database of monotonic and reversed cyclic tests on steel frame/wood panel shear walls is needed to obtain different wall parameters for use in design. For this particular project 1220 x 2440 mm walls (3 wall configurations for a total of 18 specimens) composed of 1.09 mm thick 230 MPa grade steel and 9.0 mm thick OSB were tested; where the screw spacing along the perimeter of the wall was varied (75, 100 & 152 mm). The equivalent energy elastic-plastic (EEEP) analysis approach was employed to derive design values from the test results; such as stiffness, strength and a resistance factor for use with the 2005 NBCC, as well as ductility and overstrength modification factors. The resistance factor, o = 0.7, determined by Branston was confirmed. Ductility related, Rd = 2.5, and overstrength related, R0 = 1.8, seismic force modification factors are recommended for use with shear wall design values that are based on the EEEP analysis approach.
Furthermore, the test data were used to create and calibrate hysteretic models, with the Stewart element, which later were used in non-linear time history dynamic analyses. The Ruaumoko software was made use of for the modeling of two representative buildings with ten earthquake records for the Vancouver BC region. The shear wall system of a typical two-storey house and a three-storey commercial building was first designed for lateral loads and then modeled. The resulting shear deformations (rotations) obtained from the analyses were compared with the limiting parameters measured during the physical shear wall tests. It was found that the scaled ground motions caused a shear demand that did not exceed the test based deformation limits.
Idioma: en