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Processing conditions-fracture toughness relationships of asphalt concrete mixtures
The effect of processing conditions (dynamic compaction) on the fatigue crack propagation behaviour of AC-20 asphalt concrete mixture was studied. Beams were prepared from AC-20 asphalt binder containing 8% asphalt by weight with and without dynamic compaction. The gradation used was Ohio departement of transportation item 403, and was kept the same. Flexural static tests were conducted to determine the effect of dynamic compaction on both the ultimate strengh and flexural modulus. Flexural fatigue tests were conducted on three identical notched specimens prepared using each of the two compaction techniques. Parameters controlling the crack proparagtion process were evaluated; namely, the energy release rate and the change in work, W(i), expanded on damage formation and history dependent viscous dissipation processes within the active zone (region ahead of the crack tip). The modified crack layer (MCL) model was employed to extract the specific energy of damage, gamma', a material parameter characteristic of the asphalt concrete mixture's resistance to crack propagation, and the dissipative coefficient, beta'. It has been found that the dynamically and statically compacted AC-20 mixture displayed superior fracture resistance, as reflected in gamma' and beta'. Also , the ultimate strength and modulus increased by about two-fold. Scanning electronic microscopic examination revealed an obvious change in the morphology of the fracture surface. This is manifested in the appearence of a finer more dense texture in the case of the dynamically and statically compacted mixture. In addition, smaller more frequent dimples and binder rich areas are indicative of better adhesion between the binder and the aggregate. This in term contributes to the increased fracture resistance of the compacted AC-20 asphalt concrete mixture.
Processing conditions-fracture toughness relationships of asphalt concrete mixtures
The effect of processing conditions (dynamic compaction) on the fatigue crack propagation behaviour of AC-20 asphalt concrete mixture was studied. Beams were prepared from AC-20 asphalt binder containing 8% asphalt by weight with and without dynamic compaction. The gradation used was Ohio departement of transportation item 403, and was kept the same. Flexural static tests were conducted to determine the effect of dynamic compaction on both the ultimate strengh and flexural modulus. Flexural fatigue tests were conducted on three identical notched specimens prepared using each of the two compaction techniques. Parameters controlling the crack proparagtion process were evaluated; namely, the energy release rate and the change in work, W(i), expanded on damage formation and history dependent viscous dissipation processes within the active zone (region ahead of the crack tip). The modified crack layer (MCL) model was employed to extract the specific energy of damage, gamma', a material parameter characteristic of the asphalt concrete mixture's resistance to crack propagation, and the dissipative coefficient, beta'. It has been found that the dynamically and statically compacted AC-20 mixture displayed superior fracture resistance, as reflected in gamma' and beta'. Also , the ultimate strength and modulus increased by about two-fold. Scanning electronic microscopic examination revealed an obvious change in the morphology of the fracture surface. This is manifested in the appearence of a finer more dense texture in the case of the dynamically and statically compacted mixture. In addition, smaller more frequent dimples and binder rich areas are indicative of better adhesion between the binder and the aggregate. This in term contributes to the increased fracture resistance of the compacted AC-20 asphalt concrete mixture.
Processing conditions-fracture toughness relationships of asphalt concrete mixtures
Beziehungen zwischen Herstellungsbedingungen und Bruchzähigkeit von Asphalt-Beton-Mischungen
Aglan, H. (author) / Othman, A. (author) / Figueroa, L. (author)
Journal of Materials Science ; 29 ; 4786-4792
1994
7 Seiten, 10 Bilder, 4 Tabellen, 13 Quellen
Article (Journal)
English
Processing conditions-fracture toughness relationships of asphalt concrete mixtures
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