A study of fatigue-cracking mechanisms in asphalt pavements used the finite-element program VECD-FEP++. This program employs the viscoelastic continuum damage model for the asphalt layer and a nonlinear elastic model for unbound layers. Both bottom-up and top-down cracks are investigated by taking several important variables, such as asphalt layer thickness, layer stiffness, pressure distribution under loading, and load level applied on the pavement surface, into account. The cracking mechanisms in various pavement structures under different loading conditions are studied by monitoring a damage contour. Preferred conditions for top-down cracking were identified with the results from this parametric study. The conjoined damage contours in thicker pavements suggest that a through-the-thickness crack may develop as the bottom-up and top-down cracks propagate simultaneously and coalesce; that idea supports observations from field cores and raises the question of the validity of traditional fatigue performance models that account for the growth of the bottom-up cracking only.
Fatigue Cracking Mechanisms in Asphalt Pavements with Viscoelastic Continuum Damage Finite-Element Program
Transportation Research Record
Transportation Research Record: Journal of the Transportation Research Board ; 1896 , 1 ; 96-106
2004-01-01
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Fatigue cracking simulation of aged asphalt pavements using a viscoelastic continuum damage model
British Library Online Contents | 2018
|Transportation Research Record | 2016
|British Library Online Contents | 2018
|