Your Global Source of Poly Pipe News and Technology
Council Defends Display of GRP Pipe to be Used for Haughton Water Project (Breaking News)
Plastics Pipe Institute (PPI) Issues Advisory for Substandard Plastic Pipes
Australian Pipelines and Gas Association Annual Pipeline Convention Delegates List 2018 Darwin (Declassified)
Iplex (Fletcher Building) Seeking National Procurement Manager – Brisbane
Condition Monitoring of In-Service HDPE Pipes Using Critical Point Ageing
The ‘critical ageing point’ for different PE grades. This ‘critical point’ refers to the point where the change in material properties occurs. This point can be measured by means of oxidative induction time (OIT) and carbonyl index (CI). A relationship between the measured CI and the ageing time has been developed which can assist industry to obtain a predictive understanding on the remaining life time of in service HDPE pipes.
New High Temperature Test Method for PEX, and PEX-Al-PEX Pipes
Short-term Organic Carbon Release and Chlorine Disinfectant Decay for Cross-linked Polyethylene (PEX) Plumbing Pipes
Insufficient Homogenization During Extrusion of PE Pipes – Windows and Their Effect on Butt Fusion Joint Integrity – Mike Troughton
Price Increases for HDPE Pipes at Tradelink
Estimated Lifetime of a HDPE pipe with a Semi-Elliptical Defect Under Internal Pressure (PDF)
HDPE PE100 Pipes Enhance the Quality and Standards of Infrastructure
Smart Robotics Could Soon be Used to Extend the Life of Plastic Pipes in Australia
Polyethylene Pipes for Gas Applications – Radius Systems
Plastic Pipe Failure Analysis Laboratory (ExcelPlas Australia)
Failures of plastic piping systems and components often result in costly downtime and can cause damage to facilities, the environment, and people. Increasingly, modern industry and regulatory demands place a tighter operating envelope around nearly every product or process. These increased constraints push materials and processes to the limit. The rapid pace of innovation as well as a backlog of fixed infrastructure maintenance and upgrades is a perfect recipe for sudden catastrophic failure. At such critical times, skillful testing, investigations and reconstructions are needed to uncover the circumstances leading to failure.
The ExcelPlas team can provide:
* Failure Analysis
* Fractography & Microstructural Evaluations
* Oxidative Stress Cracking due to Chlorine
* Butt and Electrofusion Welding & Joining Process Evaluation
* Polymer Materials Selection
* Incident Investigation
* Fitness for Service Evaluation
* Risk Based Inspection
ExcelPlas has a wide variety of lab assets, including tensile testing, pressure testing, microscopy, strain monitoring, polymer science, etching and polishing equipment, Scanning Electron Microscope/Energy Dispersive X-Ray Spectroscopy, and DSC, TGA thermal analysis.
Our decades of industry experience, the use of sophisticated failure analysis techniques, and specialized laboratory equipment combine to identify the active damage mechanism(s) and the root cause(s) of failure. This translates into long-term cost saving benefits as well as improved safety and reliability. We work to your unique requirements. Whether you need a simple failure analysis or a comprehensive root cause investigation that involves intensive laboratory and field work, our diverse team of experts has you covered.
ExcelPlas has extensive experience investigating plastic pipe system failures, and can provide a root cause diagnosis.
The transportation of liquids and gases from one point to another has become an integral part of our lives. Plastic pipe systems (extruded pipes and injection moulded fittings) are used in many service installations including potable water, water heating, sprinklers or compressed air and in underground applications such as sewerage and land drainage. The application will dictate the type of pipe system specified – for example systems based on UPVC, CPVC, ABS, etc.
With most pipe system installations consisting of kilometres of pipe and potentially thousands of fittings, failures over time are an unfortunate but common occurrence.
Our experience shows these typically originate from four key sources:
- Faults in the original pipe or joint components (manufacturing)
- Faulty installation / engineering (workmanship)
- Contamination effects, e.g. solvent cement effects (environment)
- System operating outside of design criteria (end-user operation)
The consequences of such failure can vary dramatically dependent on the final application and location – from small scale failures in the home to potentially catastrophic industrial installation failures with significant associated damage and financial loss.
Supported by our extensive microscopy, analytical, material and product testing laboratories ExcelPlas are able to fully characterise polymer composition and mechanical performance in order to assess the cause of product / material failure. This can involve recommendations for remedial or corrective actions to minimise the risk of further failure. Our capabilities and experience investigating plastic pipe system failures provides valuable support to the service installation sector.
ExcelPlas – the Australian Pipes & Fittings Testing Laboratory
- The Australian Pipes & Fittings Testing Laboratory is accredited to ISO 17025 by the National Association of Testing Authorities (NATA) Australia, and is Australia’s largest laboratory dedicated for the testing of plastic pipes and fittings to various Standards which include Australian, European and International Standards.
- The staff employed at the laboratory have a combined experience of more than 85 years within the plastics industry specifically with manufacturing, quality control and the research and development of plastic piping systems including HDPE, PEX, PP-R, PVC, U-PVC, M-PVC, O-PVC, ABS, GRP, GRE and PB.
- Services provided include conformance testing, compliance testing, batch release testing, root cause analysis for field failures and non-destructive testing of samples.
ExcelPlas Lab Specialising in HDPE Pipe Condition Monitoring, Failure Analysis and Testing
In the event of a HDPE buttweld or electrofusion weld failing during initial testing, or in service, we can conduct investigations to assist in identifying the root cause of the failure.
This service also extends to the premature failure of the pipe or fitting itself.
ExcelPlas Pipe Testing is a Leader in the Field of Polyethylene (PE) and High-Density Polyethylene (HDPE) Testing
ExcelPlas is accredited with the National Association of Testing Authorities (NATA) for butt weld tests, bend and tensile tests, peel decohesion tests on electro fusion sockets and failure mode determination
New UHMWPE Pipe for Tailing Offers Greater Than 4X the Abrasion Resistance of PE100 (Australia wide)
ExcelPlas Poly Pipe Weld Inspection Lists Top 7 Causes of Weld Failure:
• Lack of scraping
• Inaccurate scraping
• Contamination from dirt, water, oil or clays
• Lack of Paralell-ness of fusion faces
• Misalignment of surfaces
• Time, temperature and pressure deviations
• Not adhering to cool times
We have extensive experience in inspection of poly pipe welds for assuring welded joint quality. Direct Poly Pipe Inspection ensures that operators are following the proven welding procedure; this reduces the occurrences of operational errors which lead to defects such as inclusions, lack of fusion (LoF), porosity and misalignment.
More information, contact email@example.com
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