Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Improved Performance of Unpaved Roads During Spring Thaw
Unpaved roads in Vermont are subject to deterioration from seasonal freezing and thawing, and many towns have roads that suffer chronic serviceability problems during the so-called 'spring thaw,' or mud season. Several techniques thought to mitigate deterioration of unpaved roads during spring thaw were constructed on test sections of unpaved roads in two towns. Each potential remedy was aimed at providing some combination of limiting the availability of moisture in the winter, improving drainage during spring, and strengthening the upper portion of the road. Each technique used local and/or commercially available materials, and all were easy to construct, i.e., a town road crew could build them. For two spring thaw seasons, we compared strength estimates based on dynamic cone penetrometer tests and the percentage of the road surface rutted for treated and control sections. Methods that permanently improved the strength of the top 12 inches of the road or decreased the water content of the upper 12 inches of the road resulted in significant performance improvement during spring thaw. Cement and cellular confinement systems worked well by improving the strength of the upper layers of the soil. Two new techniques geowrap, comprising clean sand sandwiched by geotextile separators placed 12 18 inches deep, and the patented Geosynthetic Capillary Barrier Drain provided benefit by keeping the upper layers of the soil relatively dry. Geogrid and geotextile separators placed 12 inch deep and trench drains parallel to the road provided no observable benefit.
Improved Performance of Unpaved Roads During Spring Thaw
Unpaved roads in Vermont are subject to deterioration from seasonal freezing and thawing, and many towns have roads that suffer chronic serviceability problems during the so-called 'spring thaw,' or mud season. Several techniques thought to mitigate deterioration of unpaved roads during spring thaw were constructed on test sections of unpaved roads in two towns. Each potential remedy was aimed at providing some combination of limiting the availability of moisture in the winter, improving drainage during spring, and strengthening the upper portion of the road. Each technique used local and/or commercially available materials, and all were easy to construct, i.e., a town road crew could build them. For two spring thaw seasons, we compared strength estimates based on dynamic cone penetrometer tests and the percentage of the road surface rutted for treated and control sections. Methods that permanently improved the strength of the top 12 inches of the road or decreased the water content of the upper 12 inches of the road resulted in significant performance improvement during spring thaw. Cement and cellular confinement systems worked well by improving the strength of the upper layers of the soil. Two new techniques geowrap, comprising clean sand sandwiched by geotextile separators placed 12 18 inches deep, and the patented Geosynthetic Capillary Barrier Drain provided benefit by keeping the upper layers of the soil relatively dry. Geogrid and geotextile separators placed 12 inch deep and trench drains parallel to the road provided no observable benefit.
Improved Performance of Unpaved Roads During Spring Thaw
K. S. Henry (Autor:in) / J. P. Olson (Autor:in) / S. P. Farrington (Autor:in) / J. Lens (Autor:in)
2005
179 pages
Report
Keine Angabe
Englisch
| British Library Online Contents | 2016
| British Library Online Contents | 2016
Bearing capacity of unpaved roads
| Online Contents | 1997
Performance Evaluation of Geocell Reinforced Unpaved Roads
| Springer Verlag | 2024
Bearing capacity of unpaved roads
| British Library Online Contents | 1997