TY - GEN
T1 - Asphalt mixture moisture damage assessment combined with surface energy characterization
AU - Airey, G. D.
AU - Masad, E.
AU - Bhasin, A.
AU - Caro, S.
AU - Little, D. N.
PY - 2007
Y1 - 2007
N2 - Moisture damage in asphalt mixtures can be defined as the loss of strength and stiffness due to the presence of moisture in the mixture causing adhesive failure at the binderaggregate interface or cohesive failure within the binder and/or binder-filler mastic. This paper presents the experimental assessment of moisture damage on asphalt mixture specimens and describes a fundamental approach using an understanding of the mechanisms that influence the adhesive bond between aggregate and bitumen and the cohesive strength of the binder and/or mastic. Combinations of a dense graded asphalt mixture, comprising two aggregate sources (basic and acidic), three filler types and six bitumen grades and sources, were subjected to an accelerated moisture damage procedure known as the Saturation Ageing Tensile Stiffness (SATS) test. The moisture damage of the asphalt mixtures was determined as the ratio of the stiffness modulus of the moisture conditioned versus unconditioned specimens. The SATS results show that increasing the stiffness of bitumen increases the moisture damage resistance of an asphalt mixture, although this effect is dominated by the greater influence on moisture damage of the aggregate source. The results also show that the use of active filler, such as hydrated lime, significantly improves the moisture damage resistance of an asphalt mixture. Finally, a fundamental approach to moisture damage assessment using surface energy measurements is recommended as a complimentary procedure to the SATS test.
AB - Moisture damage in asphalt mixtures can be defined as the loss of strength and stiffness due to the presence of moisture in the mixture causing adhesive failure at the binderaggregate interface or cohesive failure within the binder and/or binder-filler mastic. This paper presents the experimental assessment of moisture damage on asphalt mixture specimens and describes a fundamental approach using an understanding of the mechanisms that influence the adhesive bond between aggregate and bitumen and the cohesive strength of the binder and/or mastic. Combinations of a dense graded asphalt mixture, comprising two aggregate sources (basic and acidic), three filler types and six bitumen grades and sources, were subjected to an accelerated moisture damage procedure known as the Saturation Ageing Tensile Stiffness (SATS) test. The moisture damage of the asphalt mixtures was determined as the ratio of the stiffness modulus of the moisture conditioned versus unconditioned specimens. The SATS results show that increasing the stiffness of bitumen increases the moisture damage resistance of an asphalt mixture, although this effect is dominated by the greater influence on moisture damage of the aggregate source. The results also show that the use of active filler, such as hydrated lime, significantly improves the moisture damage resistance of an asphalt mixture. Finally, a fundamental approach to moisture damage assessment using surface energy measurements is recommended as a complimentary procedure to the SATS test.
UR - http://www.scopus.com/inward/record.url?scp=77955402249&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:77955402249
SN - 9780415448802
T3 - Advanced Characterisation of Pavement and Soil Engineering Materials - Proceedings of the International Conference on Advanced Characterisation of Pavement and Soil Engineering Materials
SP - 739
EP - 748
BT - Advanced Characterisation of Pavement and Soil Engineering Materials - Proceedings of the International Conference on Advanced Characterisation of Pavement and Soil Engineering Materials
T2 - International Conference on Advanced Characterisation of Pavement and Soil Engineering Materials
Y2 - 20 June 2007 through 22 June 2007
ER -