| 146 |
Ground motion and site effect observations in the Wellington region from the 2016 Mw7.8 Kaikoura, New Zealand earthquake |
Liam Wotherspoon |
| 145 |
Incentives and motivators for improving building resilience to earthquake disasters |
Temitope Egbelakin |
| 144 |
Geotechnical aspects of the 2016 Kaikoura Earthquake on the South Island of New Zealand |
Christopher McGann |
| 143 |
In-Situ Testing of a Post Tensioned Seismically Retrofitted Full Scale Unreinforced Masonry Chimney |
Jason Ingham |
| 142 |
Influence of geometric, geologic, geomorphic and subsurface ground conditions on the accuracy of empirical models for prediction of lateral spreading |
Misko Cubrinovski |
| 141 |
Timber strong-backs as a cost-effective seismic retrofit method for URM buildings |
Dmytro Dizhur |
| 140 |
Shake table test of a structure retrofitted using 2-4 Direction Displacement Dependent (D3) viscous dampers |
Geoffrey Rodgers |
| 139 |
Peak floor accelerations in unreinforced masonry buildings with flexible diaphragms |
Jason Ingham |
| 138 |
Securing solutions for face-loaded clay brick URM walls |
Dmytro Dizhur |
| 137 |
Empirical vulnerability of reinforced concrete frame with masonry infill buildings in the Canterbury earthquake sequence |
Dmytro Dizhur |
| 136 |
Nonlinear finite element modelling of unreinforced masonry walls with openings subjected to in-plane shear |
Jason Ingham |
| 135 |
Parameter study to examine role of 3D geometric site effects on bridge foundation loads resulting from demands of liquefaction-induced lateral spreading |
Christopher McGann |
| 134 |
GEOLOGIC AND GEOMORPHIC INFLUENCES ON THE SPATIAL EXTENT OF LATERAL SPREADING IN CHRISTCHURCH, NEW ZEALAND |
Misko Cubrinovski |
| 133 |
Experience with Gel-Push Sampling in New Zealand |
Misko Cubrinovski |
| 132 |
Liquefaction Assessment |
Misko Cubrinovski |
| 131 |
Earthquake Geotechnical Engineering Module 3 - Liquefaction Hazards |
Misko Cubrinovski |
| 130 |
Earthquake Geotechnical Engineering Module 1 - Overview of the guidelines |
Misko Cubrinovski |
| 129 |
LIQUEFACTION CASE HISTORIES FROM WHAKATANE, NEW ZEALAND AS A RESULT OF THE 1987 EDGECUMBE EARTHQUAKE -- INSIGHTS FROM AN EXTENSIVE CPT DATASET AND PALEO-LIQUEFACTION TRENCHING |
Misko Cubrinovski |
| 128 |
Scoping Tourism dynamics post-quake: a module for MERIT. |
Caroline Orchiston |
| 127 |
VALIDATION OF STRONG GROUND MOTION SIMULATIONS OF TWO HISTORICAL NEW ZEALAND SUBDUCTION ZONE EARTHQUAKES ON THE SCEC BROADBAND STRONG GROUND MOTION SIMULATION PLATFORM |
Brendon Bradley |
| 126 |
Depositional Environment Effects on Observed Liquefaction Performance in Silt Swamps during the Canterbury Earthquake Sequence |
Misko Cubrinovski |
| 125 |
Liquefaction Resistance and Steady State Characterization of Shallow Soils within the Christchurch Central Business District |
Misko Cubrinovski |
| 124 |
Characterization of Shallow Soils in the Central Business District of Christchurch, New Zealand |
Misko Cubrinovski |
| 123 |
PEER-NGL Project: Open Source Global Database and Model Development for the Next-Generation of Liquefaction Assessment Procedures |
Misko Cubrinovski |
| 122 |
Liquefaction Assessments at Shallow Foundation Building Sites in the Central Business District of Christchurch, New Zealand |
Misko Cubrinovski |
| 121 |
Spatial Variation of Magnitude Scaling Factors During the 2010 Darfield and 2011 Christchurch, New Zealand, Earthquakes |
Misko Cubrinovski |
| 120 |
Mapping surface liquefaction caused by the September 2010 and February 2011 Canterbury earthquakes - a digital dataset |
Misko Cubrinovski |
| 119 |
Object-based image analysis for mapping earthquake-induced liquefaction ejecta in Christchurch, New Zealand |
Misko Cubrinovski |
| 118 |
Laboratory-Based Characterization of Shallow Silty Soils in Southwest Christchurch |
Misko Cubrinovski |
| 117 |
The Frontiers of Data in New Zealand |
Erica Seville |
