01697283

Component

Numerous cyclic plate load tests have been performed over the past several years to investigate potential performance benefits of including geosynthetics in paved and unpaved applications. A majority of these studies have focused on relatively thin pavement structures subjected to highway loads. Airfield pavements can be substantially thicker and include multiple aggregate layers, and data are needed to quantify geosynthetic contributions under high contact pressures. Eleven representative airfield pavement structures (four unreinforced sections, four containing geosynthetics at the subbase/subgrade interface, and three containing geosynthetics at the base/subbase interface) were constructed in a laboratory containment facility and subjected to cyclic loading under 1750 kPa simulated aircraft contact pressure. Permanent surface deformation and vertical pressure response data were collected to determine relative improvement when compared to an unreinforced pavement structure and to evaluate the influence of geosynthetics. Some geosynthetics increased cycles to failure, and it was found that some level of permanent deformation (e.g. 25 mm) may be required to engage reinforcing benefits when placement occurs at the subgrade/subbase interface. Changing subbase material from a California Bearing Ratio of 15-18 to 55 resulted in 1.5 orders of magnitude more cycles to 25 mm of permanent deformation than any of the geosynthetic reinforced sections evaluated.

This paper was sponsored by TRB committee AFS70 Standing Committee on Geosynthetics.

19-00899

English

8p

2019

Transportation Research Board 98th Annual Meeting

Digital/other

Figures; Photos; References; Tables

Airport runways; California bearing ratio; Flexible pavements; Geosynthetics; Load tests; Pavement performance; Plate bearing test; Repeated loads; Rutting; Subbase (Pavements); Subgrade (Pavements)

Aviation; Geotechnology; Materials; Pavements

Transportation Research Board Annual Meeting 2019 Paper #19-00899

TRIS, TRB, ATRI

Dec 7 2018 9:22AM