COMMON FAILURE MODES IN PRESSURISED PIPELINE SYSTEMS

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COMMON FAILURE MODES IN PRESSURISED PIPELINE SYSTEMS The following tables summarise the most common types of field failure modes in water supply mains and pressure sewers and associated fittings and appurtenances. The table has been developed specifically for Australian pipes, environments and operating conditions and is designed standardise the reporting of field data for entry into Water Agency failure databases. Failure Mode SCL DICL PVC PE CICL AC GRP Copper Comments PIPES Piece blown Out a a a a a a Perforation a a a a a a Broken back (Circumferential break) Longitudinal split a a a a a a Pipe wall rupture/tear a a a Associated with or during tapping a a Leaking joint a a a a a a a a Third-party damage a a a a a a a a Common in cast iron pipes Perforations in PVC and PE pipe are usually small splits Common in cast iron pipes Longitudinal fractures are also possible in PE pipe but are very uncommon Ductile pipe wall ruptures are also possible in DICL pipe but are very uncommon DICL pipelines experienced localised corrosion adjacent to uninsulated copper property service connection points PVC-U pipelines have experienced failures during tapping operations under pressure where the pipe fractures from the tapped hole Pipelines with non-elastomeric seal joints e.g. lead, lead compound are more likely to experience joint leaks. Flange gaskets are also prone to leakage especially at higher operating pressures Third party damage should not be considered a pipe failure as such. 7 November 2003 Water Services Association of Australia Page 1 of 7

FITTINGS AND OTHER APPURTENANCES Failure Mode Leak at seal or gasket Split / Cracked body Fittings Mechanical couplings - Gibault Stop valves - Gate, butterfly etc Air valves Hydrants Plastic bodied ball valves Metal bodied ball Valves a a a a a a a Tapping bands a a Tapping ferrules Perforation a a Bolt/nut failure* a a Spindle failure* a a Coating failure a a a a Seized ball/mushroom Jumper valve failure* a a a a Internal corrosion a a a a a a Degradation of material apart from corrosion and a a a a a a a a a coating failure 2 Failure to operate 3 a a a NOTES a Represents likely/common failure mode for this product 1 Failure may include fracture, distortion, corrosion, erosion and other mechanisms 2 Often involves degradation and/or attack of plastic, elastomeric or other non-metallic components 3 Failure to operate may be the result of one or more of the above failure mechanisms and may lead to pipe failure 7 November 2003 Water Services Association of Australia Page 2 of 7

Predominant Pipe Materials SCL Steel Cement (Mortar) Lined. Highly ductile material, usually coated externally and internally. Pitting and perforation is the most common failure where coating has been breached/damaged. Where extensive wall thinning has occurred ductile rupture and tearing of the wall are possible. This category is also applicable to wrought iron pipe, which is often used to describe riveted or locking bar steel pipe. Prone to leaking joints prior to use of elastomeric seals (rubber rings). DICL Ductile Iron Cement (Mortar) Lined. Ductile material lined internally and often externally sleeved with loose fit polyethylene, behaves mechanically in a similar manner to steel pipe. Most failures are associated with corrosion as a result of coating system damage and/or galvanic corrosion associated with copper property (house) service connections. PVC Polyvinyl Chloride. Polymeric material not affected by corrosion but often fails in a brittle manner. Failures often associated with mechanical damage, point loadings induced during construction, material/manufacturing defects or during under pressure tapping operations. At this stage there is no differentiation in terms of failure modes for PVC-U, PVC-M and PVC-O. PE Polyethylene. Polymeric material, relatively new to the water reticulation market in Australia. Failures to date have mainly been associated with butt welded joints, electrofusion joints and fitting problems. CICL Cast Iron Cement (Mortar) Lined. Brittle material lined internally and externally protected from corrosion by bitumen coatings, behaves mechanically like all brittle materials with catastrophic failures common. Most failures are associated with corrosion by contact with the water internally which occurred prior to cement mortar lining of pipes and externally by the soil environment and galvanic corrosion associated with copper property (house) service connections. Prone to leaking joints prior to use of elastomeric seals (rubber rings). AC Asbestos Cement pipe is a brittle material that is degraded by contact with the water internally and by the soil environment externally. The rate of degradation is dependant on water quality and soil conditions. Common failures are longitudinal splits associated with general pipe deterioration and broken backs associated with soil loadings or movement GRP Glass Reinforced Polyester. A thermoset polymer material and is not affected by corrosion but usually fails by pipe wall rupture. This is commonly associated with damage to the pipe during construction or at tapping points. Copper: Copper is mainly used as a service pipe from mains-to-meter or for fire services. Copper can suffer from both internal and external corrosion and in some cases, cracking. Cracking is usually circumferential. 7 November 2003 Water Services Association of Australia Page 3 of 7

Failure Type Brief Description Example Photographs of Pipes Piece blown Out Removal of a piece of pipe wall. This form of failure is brittle in nature. Size can an vary depending on pipe material but generally greater than 100 cm 2. Perforation Small holes usually less than 10 mm 2 In sewer pipes internal erosion from grit can result in perforation of CML pipes PVC-U DICL Broken back (Circumferential break) A single crack extending part or full way around the pipe circumference DICL PE - small split PVC (rare) - note water spurt Longitudinal split A crack along the pipe axis. The length can vary from a few mm to the full length of the pipe. Cast iron Copper AC Cast iron PVC 7 November 2003 Water Services Association of Australia Page 4 of 7

Pipe wall rupture/tear A rupture to the pipe wall where the material tears and creates an opening in the pipe wall. This form of failure is ductile in nature Associated with or during tapping Failure of the pipe by a perforation through the wall adjacent to the tapping saddle or a longitudinal split and blow out. The later can occur during the tapping operation. GRP Steel Leaking joint Water leakage through the joint. Often a result of a displaced rubber ring joint or debris left in the ring groove during installation of RRJ pipes. Lead jointed steel pipe can also leak. Corrosion adjacent brass tapping ferrule Blow out at PVC tapping ferrule connection Fracture of PVC-U pipe adjacent to tapping point Other examples Displaced rubber ring in PVC pipe Debris under elastomeric joint seal (rubber ring) Ductile iron splits - note water spurts Copper pipe perforation from external corrosion Manufacturing defects in PVC-U pressure pipe 7 November 2003 Water Services Association of Australia Page 5 of 7

Fitting Tapping ferrule, connection fittings, insulation bushes Failure Examples - Photograph and Description Tapping band and clamps Leaking joint and erosion of brass fitting Leaking brass elbows Section through leaking brass elbows Valves Crevice corrosion under adhesive label on SS clamp Corrosion of 304 SS repair clamp Cast copper alloy stud failures Erosion of tapping band subsequent to band casting failure Badly corroded and fractured uncoated valve Badly corroded and fractured uncoated valve Reflux valve failure due to corrosion of shaft component 7 November 2003 Water Services Association of Australia Page 6 of 7

PE Fittings Split adjacent to butt weld Leakage from electrofusion fitting Copyright Copyright 2003 Water Services Association of Australia Inc. Subject to the provisions of the Copyright Act (1968), no part of this document may be reproduced or copied in any form or by any means (electronic, graphic or mechanical including photocopying, recording, taping, micro copying or otherwise) or reproduced or used in connection with any information retrieval system or transmitted by any means, without the prior written permission of WSAA. 7 November 2003 Water Services Association of Australia Page 7 of 7

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