Journal article
Performance of field-aged polymeric spray lining for water pipe rehabilitation
Tunnelling and underground space technology, Vol.116, 104116
10/2021
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Source: InCites
Abstract
Polymeric spray lining is a trenchless pipe rehabilitation technique which is rapidly gaining momentum, due to the increasing costs of open trenching or lift-and-relay replacement. An accurate assessment of the effectiveness of polymeric spray-lining products is best conducted on specimens from field spray-liner installations, since field application of the polymer spray varies in application quality and installation length in comparison with laboratory-controlled application. Furthermore, experimental testing on spray-lined pipes needs to be as close as possible to actual field conditions. This paper presents results from a comprehensive testing program intended to evaluate the performance of actual in-service, spray-lined pipes extracted from the field. Material property tests on the liner material and full-scale tests on the lined pipe composites were conducted. Results indicated that despite degradation of the material in comparison to the initial conditions, the lined pipes were able to withstand operational pressures with circular through-wall holes in the host pipe of up to 50 mm diameter. Circumferential cracks in the host pipe were also successfully spanned under water pressure and pipe bending. However, water leakage, which can occur at the interface of the cement mortar liner and the polymeric liner was identified as a major issue that could compromise lined pipe systems. Recommendations for the mitigation of this issue are provided on the basis of the experimental observations.
Details
- Title
- Performance of field-aged polymeric spray lining for water pipe rehabilitation
- Creators
- Rukshan Azoor - Monash UniversityBenjamin Shannon - Monash UniversityGuoyang Fu - Monash UniversityRavin Deo - Monash UniversityJayantha Kodikara - Monash University
- Publication Details
- Tunnelling and underground space technology, Vol.116, 104116
- Publisher
- Elsevier
- Number of pages
- 12
- Grant note
- Australian Government, through the Cooperative Research Centre; Australian Government CRC Program; Canada Research Chairs
- Identifiers
- 991013125993702368
- Copyright
- © 2021 Elsevier Ltd. All rights reserved.
- Academic Unit
- Faculty of Science and Engineering
- Language
- English
- Resource Type
- Journal article