A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A earthquake simulation structure built at the College of Engineering, it is designed to demonstrate a retrofit of seismic strengthening to a structure.
A photograph of part of the display structure for the Info Gap temporary outdoor display space. The structure is sitting behind the Gap Filler headquarters in Sydenham.
A temporary tent structure outside the central fire station.
More repairs to the infrastructure as a result of the 2010 & 2011 earthquakes. Boat ramp at New Brighton. Avon River.
More repairs to the infrastructure as a result of the 2010 & 2011 earthquakes. Hardy Street/Owles Terrace corner (beside the boat launching ramp), New Brighton
More repairs to the infrastructure as a result of the 2010 & 2011 earthquakes. Boat ramp at New Brighton. Avon River.
A map showing damage to Department of Conservation structures and tracks.
Damage to a house where the wall has crumbled, exposing the internal structure.
An infographic explaining the structure and funcion of the Canterbury Earthquake Recovery Authority (CERA).
A black and white photograph of the wooden structure supporting the Gap Filler Dino-Sauna.
A black and white photograph of a steel structure on a demolition site filled with building rubble.
Damage to St John the Baptist Church in Latimer Square, where the tower has crumbled revealing the inner structure.
Damage to St John the Baptist Church in Latimer Square, where the tower has crumbled revealing the inner structure.
Damage to a property where the brick wall has crumbled, revealing the internal wooden structure and the inside of the house.
A damaged structure on Oxford Terrace next to the Avon River has been given a yellow notice, meaning restricted access.
An exposed brick wall left after the demolition of the adjoining building. The internal wooden structure and cabling can now be seen.
A portaloo in Cranmer Square. In the background is a damaged property where the brick wall has crumbled, revealing the internal structures.