17-year elevated temperature study of HDPE geomembrane longevity in air, water and leachate-Reference-Cited by-同舟云学术

17-year elevated temperature study of HDPE geomembrane longevity in air, water and leachate

Published:2018-10 Issue:5 Volume:25 Page:525-544
ISSN:1072-6349
Container-title:Geosynthetics International
language:en
Short-container-title:Geosynthetics International

Author:

Ewais A. M. R.¹,Rowe R. K.²,Rimal S.³,Sangam H. P.⁴

Affiliation:

1. Assistant professor, Civil Engineering Department, Ain-Shams University, Cairo, Egypt,

2. Professor, Canada Research Chair in Geotechnical and Geoenvironmental Engineering, and Killam Fellow, GeoEngineering Centre at Queen's-RMC, Queen's University, Ellis Hall, Kingston, ON, Canada, K7L 3N6,(corresponding author)

3. Geotechnical Engineer, Golder Associates Ltd., 6925 Century Avenue, Suite #100, Mississauga, ON, Canada L5N 7K2,

4. Director, Mine Environment, Mining & Metallurgy, SNC-Lavalin 195 The West Mall, Toronto, ON, Canada M9C 5K1,

Abstract

A 17-year investigation of a geomembrane (GMB) aged at 55, 70 and 85°C in air, water and leachate is reported. At test termination, the mechanical properties had only reached nominal failure in leachate and water at 70 and 85°C. Consistent with a previous study, there is a significant reduction in stress crack resistance (SCR) before there is clear evidence of oxidative degradation; this is attributed to the morphological changes due to disentanglement of entangled polymer chains. The effect of this apparent morphological change on SCR appeared to be greatest for the GMB when immersed in water and leachate at 70°C, although it is evident for all fluids at all three test temperatures. Using the most conservative estimates, the time to nominal failure (tNF, time to 50% of the initial or specified property value) in leachate, water and air (no UV exposure) ranged from >13, 18 and 170 years at 60°C to 660, 1500, and 1700 years, respectively, at 20°C. Assuming minimal tensile strains in the GMB, the time to nominal failure of this GMB in a composite liner is likely estimated to vary from >50 years at 60°C to >550 years at 35°C and > 1100 years at 20°C.

Publisher

Thomas Telford Ltd.

Subject

Geotechnical Engineering and Engineering Geology,Civil and Structural Engineering

Link

https://www.icevirtuallibrary.com/doi/pdf/10.1680/jgein.18.00016

Reference78 articles.

1. Durability of Three HDPE Geomembranes Immersed in Different Fluids at 85°C

2. Brittle rupture of an aged HPDE geomembrane at local gravel indentations under simulated field conditions

3. Effect of leachate composition on the long-term performance of a HDPE geomembrane

4. Arab, M. G. (2011). The Integrity of Geosynthetic Elements of Waste Containment Barrier Systems Subject to Seismic Loading, PhD thesis, School of Sustainable Engineering and the Built Environment, Arizona State University, Tempe, AZ, USA.

5. Characteristics of Gas and Leachate at an Elevated Temperature Landfill

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