Scott Gould
Scott Gould
WISER Analysis
Verified email at
Cited by
Cited by
A physical probabilistic model to predict failure rates in buried PVC pipelines
P Davis, S Burn, M Moglia, S Gould
Reliability Engineering & System Safety 92 (9), 1258-1266, 2007
Long-term performance prediction for PVC pipes
S Burn, P Davis, T Schiller
AWWA Research Foundation, 2005
Failure prediction and optimal scheduling of replacements in asbestos cement water pipes
P Davis, DD Silva, D Marlow, M Moglia, S Gould, S Burn
Journal of Water Supply: Research and Technology—AQUA 57 (4), 239-252, 2008
Condition assessment strategies and protocols for water and wastewater utility assets
DR Marlow, S Heart, S Burn, A Urquhart, S Gould, M Anderson, S Cook, ...
CSIRO, 2007
A void ratio–water content–net stress model for environmentally stabilized expansive soils
SJF Gould, J Kodikara, P Rajeev, XL Zhao, S Burn
Canadian Geotechnical Journal 48 (6), 867-877, 2011
Seasonal factors influencing the failure of buried water reticulation pipes
SJF Gould, FA Boulaire, S Burn, XL Zhao, JK Kodikara
Water Science and Technology 63 (11), 2692-2699, 2011
Understanding how the Australian climate can affect pipe failure
S Gould, F Boulaire, D Marlow, J Kodikara
OzWater'09 Conference Proceedings, 1-8, 2009
Long term performance prediction for PE pipes
P Davis, S Burn, S Gould, M Cardy, GF Tjandraatmadja, PA Sadler
Denver, Colo., AWWRF, 2007
A study of the failure of buried reticulation pipes in reactive soils
SJF Gould
Monash University, 2011
Data analysis and laboratory investigation of the behaviour of pipes buried in reactive clay
DCC Chan, JK Kodikara, SJF Gould, PG Ranjith, SKX Choi, P Davis
Australia New Zealand Geomechanics Conference 2007, 206-211, 2007
Failure analysis of a PVC sewer pipeline by fractography and materials characterization
SJF Gould, P Davis, DJ Beale, DR Marlow
Engineering Failure Analysis 34, 41-50, 2013
An expert system for assessing the technical and economic risk of pipe rehabilitation options
D Marlow, S Gould, B Lane
Expert Systems with Applications 42 (22), 8658-8668, 2015
Fracture prediction in tough polyethylene pipes using measured craze strength
P Davis, S Burn, S Gould
Polymer Engineering & Science 48 (5), 843-852, 2008
A new method for developing equations applied to the water retention curve
S Gould, P Rajeev, J Kodikara, XL Zhao, S Burn, D Marlow
Soil Science Society of America Journal 76 (3), 806-814, 2012
Risk analysis for pipeline assets—the use of models for failure prediction in plastics pipelines
S Burn, P Davis, S Gould
Service life prediction of polymeric materials, 183-204, 2009
Accelerated test based on EIS to predict buried steel pipe corrosion
N Goodman, T Muster, P Davis, S Gould, D Marney
Corrosion & Prevention, 2013
Behaviour of an in-service cast iron water reticulation pipe buried in expansive soil
C Gallage, D Chan, S Gould, J Kodikara
OzWater'09 Conference Proceedings, 1-8, 2009
Exploratory Statistical Analysis of Water Reticulation Main Failures (Melbourne, Australia)
S Gould, JK Kodikara
RR11, 2008
Exploratory statistical analysis of water reticulation main failures
S Gould, JK Kodikara
Research Rep. RR11. Monash University, Melbourne, Australia, 2008
Field measurement of the behaviour of an in-service water reticulation pipe buried in reactive soil (Altona North, VIC)
C Gallage, S Gould, D Chan, J Kodikara
Monash University, 2008
The system can't perform the operation now. Try again later.
Articles 1–20