BeckerFraserPhotos June 2012 photograph 087
Images, UC QuakeStudies
Photograph captioned by BeckerFraserPhotos, "A concrete crusher with workmen salvaging reinforcing steel from the debris, Hereford Street".
Photograph captioned by BeckerFraserPhotos, "A concrete crusher with workmen salvaging reinforcing steel from the debris, Hereford Street".
Photograph captioned by BeckerFraserPhotos, "164-170 Hereford Street is used as a concrete recycling and crushing area".
Photograph captioned by BeckerFraserPhotos, "Remaining crushed concrete rubble on the site of the Hotel Grand Chancellor, Cashel Street".
Photograph captioned by BeckerFraserPhotos, "Remaining crushed concrete rubble on the site of the Hotel Grand Chancellor, Cashel Street. Te Waipounamu in the background (to be demolished)".
During the Christchurch earthquake of February 2011, several midrise buildings of Reinforced Concrete Masonry (RCM) construction achieved performance levels in the range of life safety to near collapse levels. These buildings were subjected to seismic demands higher than the building code requirements of the time and higher than the current New Zealand Loadings Standard (NZS-1170.5:2004). Structural damage to these buildings has been documented and is currently being studied to establish lessons to be learned from their performance and how to incorporate these lessons into future RCM design and construction practices. This paper presents a case study of a six story RCM building deemed to have reached the near collapse performance level. The RCM walls on the 2nd floor failed due to toe crushing reducing the building’s lateral resistance in the east-west direction. A nonlinear dynamic analysis on a 3D model was conducted to simulate the development of the governing failure mechanism. Preliminary analysis results show that the damaged walls were initially under large compression forces from gravity loads which caused increase in their lateral strength and reduced their ductility. After toe crushing failure developed, axial instability of the model was prevented by a redistribution of gravity loads.