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Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2011. Performance of Corrugated Pipe Manufactured with Recycled Polyethylene Content. Washington, DC: The National Academies Press. doi: 10.17226/14570.
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Page 54

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54 1. R. W. Thomas, and B. Woods-DeSchepper. Stress-Crack Testing of Unnotched HDPE Geomembranes and Seams. Proceedings of the 7th GRI Seminar, Philadelphia, PA, pp. 116, 1993. 2. R. W. Thomas, G. Kolbasuk, and J. Mlynarek. Assessing the Quality of HDPE Double Track Fusion Seams. Proceedings of the Sardinia 1995 Landfill Conference, Sardinia, Italy, 1995. 3. Y. G. Hsuan, and T. J. McGrath. Protocol for Predicting Long-Term Service of Corrugated High Density Polyethylene Pipes. Final Report, Florida Department of Transportation, 2005. 4. G. Palermo, et. al. New Test Method to Determine Effect of Recycled Materials on Corrugated HDPE Pipe Performance as Projected by The Rate Process Method, Plastics Pipes XIII Conference, Washington, DC, 2006. 5. R. W. Thomas. “Performance and Quality Control of Corrugated Pipe Manufactured with Recycled Polyethylene Content,” NCHRP Project 04-32, Sept 08 Quarterly Report, Transportation Research Board of the National Academies, Washington, D.C., 2008. 6. J. S. Thornton, S. R. Allen, and R. W. Thomas. Approaches for the Prediction of Long Term Viscoelastic Properties of Geosynthetics from Short Term Tests. Geosynthetics ‘97, IFAI, Long Beach, CA, 277 pp., 1997. 7. J. S. Thornton, S. R. Allen, R. W. Thomas, and D. Sandri. The Stepped Isothermal Method for TTS and Its Application to Creep data on Polyester Yarn. Proceedings of the Sixth International Conference on Geosynthetics, Atlanta, GA, 1998. 8. J. S. Thornton, J. N. Paulson, and D. Sandri. Conventional and Stepped Isothermal Methods for Characterizing Long Term Creep Strength of Polyester Geogrids. Proceedings of the Sixth International Conference on Geosynthetics, Atlanta, GA, 1998. 9. K. G. N. C. Alwis, and C. J. Burgoyne. Accelerated Creep Testing for Aramid Fibres Using the Stepped Isothermal Method. Journal of Materials Science. Vol. 43, pp. 4789–4800, 2008. 10. Plastics Pipe Institute. Policies and Procedures for Developing Hydro- static Design Basis (HDB), Pressure Design Basis (PDB), Strength Design Basis (SDB), and Minimum Required Strength (MRS) Ratings for Thermoplastic Piping Materials or Pipe. TR3, Washington, D.C., 2004. 11. C. G. Bragaw. Predicting of Service Life of Polyethylene Gas Piping Systems. Proceedings of the Seventh Plastic Fuel Gas Symposium, New Orleans, LA 1980. 12. C. F. Popelar, C. H. Popelar, and V. H. Kenner. Viscoelastic Material Characterization and Modeling for Polyethylene. Polymer Engi- neering and Science, Vol. 30, pp. 577, 1990. 13. J. B. Goddard. Pennsylvania Department of Transportation I-279 Project HDPE Pipe Deep Burial Study—A 20-Year Research Project. Proceedings of the Plastic Pipes XIV Conference, Budapest, Hungary, 2008. 14. McGrath T. J. et al. NCHRP Report 631: Updated Test and Design Methods for Thermoplastic Drainage Pipe. Transportation Research Board of the National Academies, Washington, D.C., 2009. 15. AASHTO. AASHTO LRFD Bridge Design Specifications, 4th Edition. American Association of State Highway and Transportation Officials, Washington D.C., 2007. 16. Plastics Pipe Institute, Rate Process Method for Projecting Perfor- mance of Polyethylene Piping Components, Technical Note TN-16, Washington, D.C., 2008. 17. Y. Hsuan, A Stress Crack Resistance Method for Evaluation of Poly- ethylene Materials Intended for Pipe Applications. Technical Report, Plastics Pipe Institute, Washington, D.C., 1997. 18. Y. G. Hsuan, and W. Wong, Methodology to Evaluate the Oxidation Degradation of HDPE Corrugated Pipe Resins, Transportation Research Record: Journal of the Transportation Research Board, No. 2172, Washington, D.C., 2010, pp. 192–198. References

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TRB’s National Cooperative Highway Research Program (NCHRP) Report 696: Performance of Corrugated Pipe Manufactured with Recycled Polyethylene Content provides potential specifications for corrugated drainage pipe manufactured with recycled high-density polyethylene (HDPE). The report includes proposed draft specifications for recycled HDPE, formulations of virgin and recycled HDPE, and drainage pipe containing recycled HDPE.

The following three appendixes of NCHRP 696 are available in electronic format only.

Appendix B: Recycled Polyethylene Resins

Appendix C: Recycled-Resin Blends

Appendix D: Pipe Containing Recycled HDPE

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