A design guideline which defined the role of the Technical Leads within SCIRT technical forums.
A document containing examples of the technical update newsletter which detailed SCIRT innovations. The newsletters in the document were produced between 1 July 2013 and 1 May 2014.
A design guideline which defined the role of the technical forums within SCIRT.
A paper which outlines the observed damage to Christchurch City Council-owned retaining walls and the repair solutions developed.
A document which describes best practice for dewatering guidelines.
A video of an address by Brendon Burns, Facilitator at Brendon Burns & Associates MACRO Communications, at the 2014 Seismics and the City forum. This talk was part of the Building Communities section and explored the extent to which the new city core will be a 'government-flavoured doughnut', the key issues with this concept, and the possible solutions.
A video of an address by Minnie Baragwanath, CEO of Be.Institute, at the 2014 Seismics and the City forum. This talk was part of the Building Communities section and explored the extent to which the new city core will be a 'government-flavoured doughnut', the key issues with this concept, and the possible solutions.
A video of an address by Tim Howe, Partner of Ocean Partners Ltd, at the 2014 Seismic and the City forum. This talk was part of the Building Communities section and explored the extent to which the new city core will be a 'government-flavoured doughnut', the key issues with this concept, and the possible solutions.
A video of an address by Alex Cutler, CEO of the New Zealand Green Building Council, at the 2014 Seismics and the City forum. This talk was part of the Building Communities section and explored the extent to which the new city core will be a 'government-flavoured doughnut', the key issues with this concept, and the possible solutions.
A PDF copy of a publication promoting conference and seminar solutions.
A PDF copy of a publication promoting conference and seminar solutions.
A PDF copy of a publication promoting conference and seminar solutions.
A video of a presentation by Toni Gutschlag, General Manager of Mental Health Services at the CDHB, at the 2016 Seismics in the City Conference. The presentation is titled, "Shaping Young Minds: Mental health issues and solutions".
Describes an extensive experimental program at the University of Canterbury, for the development of new structural systems and connections for multi-storey laminated veneer lumber (LVL) timber buildings in earthquake-prone areas. The proposed innovative ductile timber connections are conceptually similar to recent seismic solutions successfully developed for precast concrete multi- storey buildings. The paper gives an overview of the research program, and the results of quasi-static cyclic tests on frame subassemblies, including exterior beam-column joints and cantilever columns, as well as pseudo-dynamic tests on cantilever columns. The experimental results showed significant dissipation of hysteretic energy, good self-centering capacity and no appreciable damage of the structural elements, confirming the expected enhanced performance of the proposed structural systems.
A video of a presentation by Grant Wilkinson, Senior Engineer for Ruamoko Solutions, at the 2016 Seismics in the City Conference. The presentation is titled, "Engineering Regeneration, Collaboration and Innovation ".The abstract for the presentation reads, "Applying some seismic lessons learnt to saving several heritage gems and collaborating on the Christchurch Art Gallery Base Isolation retrofit project."
Photograph captioned by BeckerFraserPhotos, "The Datasouth Business Solutions Limited office and car park in Burnside".
Photograph captioned by BeckerFraserPhotos, "The Datasouth Business Solutions Limited office and car park in Burnside".
A photograph of a banner advertising Quakesafe Building Solutions. The photograph is captioned by Paul Corliss, "Victoria Street".
The Christchurch City Council and the Earthquake Commission are devising a wholesale solution to the city's flood protection.
A photograph submitted by Andy Palmer to the QuakeStories website. The description reads, "Sewerage solutions, Retreat Rd, Avonside. 25 Feb 2012.".
A document made available to people attending Duncan Gibb's Brunel lecture.
A machine pumps sewage into the river in Kaiapoi. This is a temporary solution while the sewage system is being repaired.
he 2016 Building (Earthquake Prone Building) Amendment Act aims to improve the system for managing earthquake-prone buildings. The proposed changes to the Act were precipitated by the Canterbury earthquakes, and the need to improve the seismic safety of New Zealand’s building stock. However, the Act has significant ramifications for territorial authorities, organisations and individuals in small New Zealand towns, since assessing and repairing heritage buildings poses a major cost to districts with low populations and poor rental returns on commercial buildings.
A photograph captioned by BeckerFraserPhotos, "A range of innovative solutions are being used to keep businesses operating at the Colombo Street, Edgeware Road shops".
A photograph captioned by BeckerFraserPhotos, "A range of innovative solutions are being used to keep businesses operating at the Colombo Street, Edgeware Road shops".
A photograph captioned by BeckerFraserPhotos, "A range of innovative solutions are being used to keep businesses operating at the Colombo Street, Edgeware Road shops".
A pdf copy of a PowerPoint presentation used by Duncan Gibb when presenting his Brunel lecture.
During the past two decades, the focus has been on the need to provide communities with structures that undergo minimal damage after an earthquake event while still being cost competitive. This has led to the development of high performance seismic resisting systems, and advances in design methodologies, in order respect this demand efficiently. This paper presents the experimental response of four pre-cast, post-tensioned rocking wall systems tested on the shake-table at the University of Canterbury. The wall systems were designed as a retrofit solution for an existing frame building, but are equally applicable for use in new design. Design of the wall followed a performance-based retrofit strategy in which structural limit states appropriate to both the post-tensioned wall and the existing building were considered. Dissipation for each of the four post-tensioned walls was provided via externally mounted devices, located in parallel to post-tensioned tendons for re-centring. This allowed the dissipation devices to be easily replaced or inspected following a major earthquake. Each wall was installed with viscous fluid dampers, tension-compression yielding steel dampers, a combination of both or no devices at all – thus relying on contact damping alone. The effectiveness of both velocity and displacement dependant dissipation are investigated for protection against far-field and velocity-pulse ground motion characteristics. The experimental results validate the behaviour of ‘Advanced Flag-Shape’ rocking, dissipating solutions which have been recently proposed and numerically tested. Maximum displacements and material strains were well controlled and within acceptable bounds, and residual deformations were minimal due to the re-centring contribution from the post-tensioned tendons. Damage was confined to inelastic yielding (or fluid damping) of the external dampers.
A video about businesses in the Christchurch central city Red Zone. The Red Zone has now been renamed the Rebuild Zone. The video shows businesses which have remained untouched since the 22 February 2011 earthquake, including the Camelot Hotel and the i-SITE visitor centre in Cathedral Square, Subway on High Street, Jeans West on High Street, Time Zone on Colombo Street, Comics Compulsion on Manchester Street, Mortgage Solutions mortgage brokers on the corner of Hereford and Manchester Streets, Pocha Bar and Restaurant off Lichfield Street, and a fabric store on Lichfield Street.
Recent major earthquakes such as Northridge 1994 and Izmit Kocaeli 1999 highlighted the poor performance of existing buildings constructed prior to the early 1970’s. Low lateral seismic design coefficients and the adopted “working stress design” methodology (essentially an elastic design) lacked any inelastic design considerations, thus leading to inadequate detailing. Insufficient development lengths, lapping within potential plastic hinge regions, lack, or total absence of joint transverse reinforcement, and the use of plain round reinforcement and hooked end anchorages were common throughout the structure. The behaviour is generally dominated by brittle local failure mechanisms (e.g. joint or element shear failures) as well as possible soft-storey mechanisms at a global level. Amongst several possible retrofit interventions, a typical solution is to provide the structure with additional structural walls i.e. external buttressing or column in-fills. Extensive developments on precast, post-tensioned, dissipative systems have shown promise for the use of rocking wall systems to retrofit existing poorly detailed frame structures. In this contribution, the feasibility of such a retrofit intervention is investigated. A displacement-based retrofit procedure is developed and proposed, based on targeting pre-defined performance criteria, such as joint shear and/or column curvature deformation limits. A design example, using the proposed retrofit strategy on a prototype frame is presented. A brief overview on experimental work ongoing at the University of Canterbury investigating the dynamic response of advanced rocking walls for retrofit purposes will be provided.