Viscoplastic modeling of asphalt mixes with the effects of anisotropy, damage and aggregate characteristics

This paper presents an approach for constitutive modeling of the viscoplastic behavior of asphalt mixes. This approach utilizes an anisotropic non-associated flow rule based on the Drucker–Prager yield surface. The selection of this yield surface is motivated by the field stress paths and material p...

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Bibliographic Details
Published in:Mechanics of materials 2005-12, Vol.37 (12), p.1242-1256
Main Authors: Masad, Eyad, Tashman, Laith, Little, Dallas, Zbib, Hussein
Format: Article
Language:English
Subjects:
Aggregate shape
Anisotropy
Applied sciences
Asphalt mix
Buildings. Public works
Damage
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Inelasticity (thermoplasticity, viscoplasticity...)
Physics
Road construction. Pavements. Maintenance
Solid mechanics
Structural and continuum mechanics
Surfacing
Transportation infrastructure
Viscoplasticity
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Summary:This paper presents an approach for constitutive modeling of the viscoplastic behavior of asphalt mixes. This approach utilizes an anisotropic non-associated flow rule based on the Drucker–Prager yield surface. The selection of this yield surface is motivated by the field stress paths and material properties associated with permanent deformation at high temperatures. The efficacy of the model is demonstrated by analyzing data from compressive triaxial tests conducted at different confining pressures and strain rates for three different mixes. The model parameters are related to the experimental measurements of aggregate shape characteristics, aggregate surface energy, inherent anisotropic distribution of aggregates, and microstructure damage measured using X-ray computed tomography and image analysis techniques. Establishing the relationship between the model parameters and material properties is important in order to optimize the mix properties, and achieve desirable mix performance.
ISSN:0167-6636
1872-7743
DOI:10.1016/j.mechmat.2005.06.003