Load-strain-time behavours of two polymer geogrids affected by temperature
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Author list: Chantachot T., Kongkitkul W., Tatsuoka F.
Publication year: 2016
Journal: International Journal of GEOMATE (2186-2982)
Volume number: 10
Issue number: 3
Start page: 1869
End page: 1876
Number of pages: 8
ISSN: 2186-2982
Languages: English-Great Britain (EN-GB)
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Abstract
A special series of tensile loading tests was performed on two types of geogrid using a wide variety of load and temperature histories to evaluate the effects of ambient temperature on their load-strain-time behaviours. The applied loading schemes included monotonic loading and sustained loading under different controlled ambient temperature conditions. The followings were found from test results and their analysis performed in this study. With an increase in the ambient temperature, the rupture strength and stiffness decreased while the creep strain increased associated with a decrease in the stiffness. The creep strain by sustained loading during which the temperature was elevated from 30 ฐC to 50 ฐC was significantly larger than the one by sustained loading during otherwise monotonic loading at the constant temperature equal to either 30 ฐC or 50 ฐC. The elastic stiffness decreased with an increase in the temperature while increased with the tensile load level. Importantly, the residual tensile strength observed at the same ambient temperature was essentially independent of pre-rupture loading histories.
Keywords
Residual strength
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