Damage to the Coastguard Building in Kaiapoi. One of the concrete panels on the footpath has lifted, revealing an empty space underneath.
A photograph captioned by BeckerFraserPhotos, "A digger working up high on the Gallery Apartments, drilling holes in the concrete slabs".
A photograph of a concrete mixer. The photograph is captioned by BeckerFraserPhotos, "The old and the new in Colombo Street".
A large concrete beam, still partially connected by reinforcing rods to the partially-demolished building it came from lies across an entranceway.
A photograph captioned by BeckerFraserPhotos, "A large pile of concrete rubble on the site of Copthorne Hotel on Durham Street".
A photograph of large bags of concrete supporting a retaining wall. The photograph is captioned by BeckerFraserPhotos, "Cunningham Terrace, Lyttelton".
Reinforced concrete buildings that satisfied modern seismic design criteria generally behaved as expected during the recent Canterbury and Kaikoura earthquakes in New Zealand, forming plastic hinges in intended locations. While this meant that life-safety performance objectives were met, widespread demolition and heavy economic losses took place in the aftermath of the earthquakes.The Christchurch central business district was particularly hard hit, with over 60% of the multistorey reinforced concrete buildings being demolished. A lack of knowledge on the post-earthquake residual capacity of reinforced concrete buildings was a contributing factor to the mass demolition.Many aspects related to the assessment of earthquake-damaged reinforced concrete buildings require further research. This thesis focusses on improving the state of knowledge on the post earthquakeresidual capacity and reparability of moderately damaged plastic hinges, with an emphasis on plastic hinges typical of modern moment frame structures. The repair method focussed on is epoxy injection of cracks and patching of spalled concrete. A targeted test program on seventeen nominally identical large-scale ductile reinforced concrete beams, three of which were repaired by epoxy injection following initial damaging loadings, was conducted to support these objectives. Test variables included the loading protocol, the loading rate, and the level of restraint to axial elongation.The information that can be gleaned from post-earthquake damage surveys is investigated. It is shown that residual crack widths are dependent on residual deformations, and are not necessarily indicative of the maximum rotation demands or the plastic hinge residual capacity. The implications of various other types of damage typical of beam and column plastic hinges are also discussed.Experimental data are used to demonstrate that the strength and deformation capacity of plastic hinges with modern seismic detailing are often unreduced as a result of moderate earthquake induced damage, albeit with certain exceptions. Special attention is given to the effects of prior yielding of the longitudinal reinforcement, accounting for the low-cycle fatigue and strain ageing phenomena. A material-level testing program on the low-cycle fatigue behaviour of grade 300E reinforcing steel was conducted to supplement the data available in the literature.A reduction in stiffness, relative to the initial secant stiffness to yield, occurs due to moderate plastic hinging damage. This reduction in stiffness is shown to be correlated with the ductility demand,and a proposed model gives a conservative lower-bound estimate of the residual stiffness following an arbitrary earthquake-type loading. Repair by epoxy injection is shown to be effective in restoring the majority of stiffness to plastic hinges in beams. Epoxy injection is also shown to have implications for the residual strength and elongation characteristics of repaired plastic hinges.
A photograph of Whole House Reuse item 109. This item was salvaged from 19 Admiral Way in New Brighton as part of the Whole House Reuse project.
A thumbnail photograph of Whole House Reuse item 109, cropped for the catalogue. This item was salvaged from 19 Admiral Way in New Brighton as part of the Whole House Reuse project.
A photograph of a flight of concrete stairs salvaged from a building and placed in a car park in the Christchurch central city.
A photograph of a flight of concrete stairs salvaged from a building and placed in a car park in the Christchurch central city.
Concrete slabs laid on the ground of the Crowne Plaza Hotel's demolition site. This will serve as the floor of the Pallet Pavilion.
A concrete block stabilising a power pole on Bracken Street in Avonside. The road and footpath around it have been cracked and warped.
An excavator sits on top of a partially demolished building. The concrete posts have been kept intact by the reinforcement cable which runs through them.
Seen through a cordon fence, traces of bricks from a demolished building adhere to the concrete wall of the adjoining building, also being demolished.
An excavator sits on top of a partially demolished building. The concrete posts have been kept intact by the reinforcement cable which runs through them.
Seen through a cordon fence, traces of bricks from a demolished building adhere to the concrete wall of the adjoining building, also being demolished.
Bracing made of steel beams and concrete blocks that has been applied to the wall of St John the Baptist Church in Latimer Square.
A photograph of a woman applying filler to a concrete-block wall, in preparation for painting it to become the Poetica Urban Poetry wall.
The Christchurch earthquakes have highlighted the importance of low-damage structural systems for minimising the economic impacts caused by destructive earthquakes. Post-tensioned precast concrete walls have been shown to provide superior seismic resistance to conventional concrete construction by minimising structural damage and residual drifts through the use of a controlled rocking mechanism. The structural response of unbonded post-tensioned precast concrete wall systems, with and without additional energy dissipating elements, were investigated by means of pseudo-static cyclic, snap back and forced vibration testing with shake table testing to be completed. Two types of post-tensioned rocking wall system were investigated; a single unbonded post-tensioned precast concrete wall or Single Rocking Wall (SRW) and a system consisting of a Precast Wall with End Columns (PreWEC). The equivalent viscous damping (EVD) was evaluated using both the pseudo-static cyclic and snap back test data for all wall configurations. The PreWEC configurations showed an increase in EVD during the snap back tests in comparison to the cyclic test response. In contrast the SRW showed lower EVD during the snap back tests in comparison to the SRW cyclic test response. Despite residual drifts measured during the pseudo-static cyclic tests, negligible residual drift was measured following the snap back tests, highlighting the dynamic shake-down that occurs during the free vibration decay. Overall, the experimental tests provided definitive examples of the behaviour of posttensioned wall systems and validated their superior performance compared to reinforced concrete construction when subjected to large lateral drifts.
In order to provide information related to seismic vulnerability of non-ductile reinforced concrete (RC) frame buildings, and as a complementary investigation on innovative feasible retrofit solutions developed in the past six years at the University of Canterbury on pre-19170 reinforced concrete buildings, a frame building representative of older construction practice was tested on the shake table. The specimen, 1/2.5 scale, consists of two 3-storey 2-bay asymmetric frames in parallel, one interior and one exterior, jointed together by transverse beams and floor slabs. The as-built (benchmark) specimen was first tested under increasing ground motion amplitudes using records from Loma Prieta Earthquake (California, 1989) and suffered significant damage at the upper floor, most of it due to lap splices failure. As a consequence, in a second stage, the specimen was repaired and modified by removing the concrete in the lap splice region, welding the column longitudinal bars, replacing the removed concrete with structural mortar, and injecting cracks with epoxy resin. The modified as-built specimen was then tested using data recorded during Darfield (New Zealand, 2010) and Maule (Chile, 2010) Earthquakes, with whom the specimen showed remarkably different responses attributed to the main variation in frequency content and duration. In this contribution, the seismic performance of the three series of experiments are presented and compared.
The current seismic design practice for reinforced concrete (RC) walls has been drawn into question following the Canterbury earthquakes. An overview of current research being undertaken at the University of Auckland into the seismic behaviour of RC walls is presented. The main objectives of this research project are to understand the observed performance of several walls in Christchurch, quantify the seismic loads on RC walls, and developed improved design procedures for RC walls that will assist in revisions to NZS 3101. A database summarising of the performance of RC wall buildings in the Christchurch CBD was collated to identify damage modes and case-study buildings. A detailed investigation is underway to verify the seismic performance of lightly reinforced concrete walls and an experimental setup has been developed to subject RC wall specimen to loading that is representative of a multi-storey building. Numerical modelling is being used to understand the observed performance of several case-study RC walls buildings in Christchurch. Of particular interest is the influence that interactions between walls and other structural elements have on the seismic response of buildings and the loads generated on RC walls.
A damaged footpath in the Christchurch Botanic Gardens. Two orange cones have been placed on the damaged concrete to warn people of the uneven surface.
Two men and a crane laying slabs of concrete on the site of the Pallet Pavilion. These will serve as a floor for the structure.
The front of the Cathedral of the Blessed Sacrament on Barbadoes Street. Concreting work can be seen taking place at the base of the building.
Two men and a crane laying slabs of concrete on the site of the Pallet Pavilion. These will serve as a floor for the structure.
A photograph of a bird painted on a concrete block in a retaining wall. The photograph is captioned by BeckerFraserPhotos, "Cunningham Terrace, Lyttelton".
Two men and a crane laying slabs of concrete on the site of the Pallet Pavilion. These will serve as a floor for the structure.
Two men and a crane laying slabs of concrete on the site of the Pallet Pavilion. These will serve as a floor for the structure.
A digitally manipulated image of a damaged fence. Concrete blocks have fallen from the wall leaving a large gap, through which autumn leaves are visible.