Developing critical field permeability and pavement density values for coarse-graded Superpave pavements Cooley, L Allen Jr ; Brown, E Ray ; Maghsoodloo, Saeed
Publication details: Transportation Research Record, 2001Description: nr 1761, s. 41-9Subject(s): Bibl.nr: VTI P8167:1761Location: Abstract: Within the hot-mix asphalt (HMA) community, it is generally accepted that the proper compaction of HMA is vital for a stable and durable pavement. Low in-place air voids have been shown to lead to rutting and shoving, whereas high in-place air voids have been shown to reduce a pavement's durability through moisture damage and excessive oxidation of the asphalt binder. Recent research has suggested that coarse-graded Superpave-designed mixes are more permeable than conventionally designed pavements at a given air void content. This higher permeability can lead to durability problems. The pavement density at which coarse-graded Superpave mixes become permeable was evaluated by using a field permeability device. On the basis of the data collected, 9.5- and 12.5-mm nominal maximum aggregate size (NMAS) mixtures become excessively permeable at approximately 7.7% in-place air voids, which corresponded to a field permeability value of 100 x 10 to the -5 power cm/s. Mixtures having a 19.0-mm NMAS became permeable at 5.5% in-place air voids, which provided a field permeability value of 120 x 10 to the -5 power cm/s. Coarse-graded mixes having an NMAS of 25.0 mm became permeable at 4.4% air voids, which corresponded to a field permeability value of 150 x 10 to the -5 cm/s.Current library | Call number | Status | Date due | Barcode | |
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Statens väg- och transportforskningsinstitut | Available |
Within the hot-mix asphalt (HMA) community, it is generally accepted that the proper compaction of HMA is vital for a stable and durable pavement. Low in-place air voids have been shown to lead to rutting and shoving, whereas high in-place air voids have been shown to reduce a pavement's durability through moisture damage and excessive oxidation of the asphalt binder. Recent research has suggested that coarse-graded Superpave-designed mixes are more permeable than conventionally designed pavements at a given air void content. This higher permeability can lead to durability problems. The pavement density at which coarse-graded Superpave mixes become permeable was evaluated by using a field permeability device. On the basis of the data collected, 9.5- and 12.5-mm nominal maximum aggregate size (NMAS) mixtures become excessively permeable at approximately 7.7% in-place air voids, which corresponded to a field permeability value of 100 x 10 to the -5 power cm/s. Mixtures having a 19.0-mm NMAS became permeable at 5.5% in-place air voids, which provided a field permeability value of 120 x 10 to the -5 power cm/s. Coarse-graded mixes having an NMAS of 25.0 mm became permeable at 4.4% air voids, which corresponded to a field permeability value of 150 x 10 to the -5 cm/s.