Journal ArticleDOI
Continuum damage mechanics-based fatigue model of asphalt concrete
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TLDR
In this article, a fatigue performance prediction model of asphalt concrete is developed from a uniaxial constitutive model based on the elastic-viscoelastic correspondence principle and continuum damage mechanics through mathematical simplifications.Abstract:
A fatigue performance prediction model of asphalt concrete is developed from a uniaxial constitutive model based on the elastic-viscoelastic correspondence principle and continuum damage mechanics through mathematical simplifications. This fatigue model has a form similar to the phenomenological tensile strain-based fatigue model. Therefore, a comparison between the new model and the phenomenological model yields that the regression coefficients in the phenomenological model are functions of viscoelastic properties of the materials, loading conditions, and damage characteristics. The experimental study on two mixtures with compound loading histories demonstrates that the fatigue model maintains all of the strengths of the constitutive model such as its accuracy and abilities to account for the effects of rate of loading, stress/strain level dependency, rest between loading cycles, and mode-of-loading on fatigue life of asphalt concrete.read more
Citations
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Journal ArticleDOI
Fatigue and healing characterization of asphalt mixtures
TL;DR: In this paper, the effect of the processes on fatigue fracture and fracture healing during controlled-strain, dynamic mechanical analysis (DMA) testing was investigated, where Sand asphalt samples were fabricated with two SHRP-classified binders: AAD-1 and AAM-1.
Journal ArticleDOI
Fatigue of bituminous mixtures
TL;DR: In this article, the authors present an interlaboratory test campaign organized by the RILEM 182-PEB Technical Committee, where 11 different test methods, comprising uniaxial tension/compression, 2-, 3-and 4-point bending and indirecttension tests, were utilized in order to investigate fatigue characteristics of a dense graded asphalt concrete mixture.
Journal ArticleDOI
Effect of mineral fillers on fatigue resistance and fundamental material characteristics: mechanistic evaluation
TL;DR: In this paper, the role of fillers in fatigue resistance was quantified, and induced mechanisms due to filler addition were investigated, and the effect of hydrated lime, which is highly binder specific, as a filler was further discussed.
Journal ArticleDOI
A microstructure-based viscoplastic model for asphalt concrete
TL;DR: In this paper, a microstructure-based viscoplastic continuum model is developed for the permanent deformation of asphalt concrete (AC), which accounts for several phenomena including strain rate dependency, confining pressure dependency, aggregate friction, anisotropy, and damage.
References
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Transportation Research Board
TL;DR: Wu et al. as discussed by the authors published more than 1000 papers from TRR journals beginning with volume 2141 and more than 700 papers from the TRR journal volumes 2090 starting with volume 2090.
Book
Pavement analysis and design
TL;DR: In this paper, the authors present the theory of pavement design and review the methods developed by several organizations, such as the American Association of State Highway and Transportation Officials (AASHTO), the Asphalt Institute (AI), and the Portland Cement Association (PCA).
Journal ArticleDOI
Correspondence principles and a generalized J integral for large deformation and fracture analysis of viscoelastic media
TL;DR: In this paper, a quasi-static deformation and fracture analysis for nonlinear viscoelastic media and sample applications are given. But the authors focus on predicting mechanical work available at the crack tip for initiation and continuation of growth.
Journal ArticleDOI
A viscoelastic continuum damage model and its application to uniaxial behavior of asphalt concrete
Journal ArticleDOI
A theory of mechanical behavior of elastic media with growing damage and other changes in structure
TL;DR: In this paper, energy-like potentials are used to model the mechanical behavior of linear and nonlinear elastic media with changing structure, such as micro-and macro-crack growth in monolithic and composite materials.
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