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Images for earthquake engineer; more images...

Images, UC QuakeStudies

A photograph of concerned members of the public looking up at the Hotel Grand Chancellor, shortly after the 22 February 2011 earthquake. Many of the people in the crowd are structural engineers from all over the world who travelled to Christhcurch for an earthquake workshop. The workshop was just about to begin when the 22 February 2011 earthquake hit.

Images, UC QuakeStudies

A photograph of concerned members of the public looking up at the Hotel Grand Chancellor, shortly after the 22 February 2011 earthquake. Many of the people in the crowd are structural engineers from all over the world who travelled to Christhcurch for an earthquake workshop. The workshop was just about to begin when the 22 February 2011 earthquake hit.

Audio, Radio New Zealand

Rick Wentz is a Chartered geotechnical engineer originally from Northern California who has lived in New Zealand since 2011 - coming here in response to the Christchurch earthquakes. Rick talks to Mark about seismic risk - what it means for the general community and the role of a geotechnical engineering in helping to manage it.

Research papers, The University of Auckland Library

Recent earthquakes have shown that liquefaction and associated ground deformations are major geotechnical hazards to civil engineering infrastructures, such as pipelines. In particular, sewer pipes have been damaged in many areas in Christchurch as a result of liquefaction-induced lateral spreading near waterways and ground oscillation induced by seismic shaking. In this paper, the addition of a flexible AM liner as a potential countermeasure to increase sewer pipe capacity was investigated. Physical testing through 4-point loading test was undertaken to characterise material properties and the response of both unlined pipe and its lined counterpart. Next, numerical models were created using SAP2000 and ABAQUS to analyse buried pipeline response to transverse permanent ground displacement and to quantify, over a range of pipe segment lengths and soil parameters, the effectiveness of the AM liner in increasing displacement capacity. The numerical results suggest that the addition of the AM liner increases the deformation capacity of the unlined sewer pipe by as much as 50 times. The results confirmed that AM liner is an effective countermeasure for sewer pipes in liquefied ground not only in terms of increased deformation capacity but also the fact that AM-Liner can prevent influx of sand and water through broken pipes, making sewer pipes with liner remaining serviceable even under severe liquefaction condition.