The behaviour under load of asphalt concrete (AC) was viewed as additively separable into viscoelastic and viscoplastic components, and the study focused on modelling the pre-peak response of the viscoelastic part under constant temperature conditions. Non-linear viscoelastic behaviour was first exposed in several test modes, and a constitutive theory was subsequently offered - potentially capable of capturing and reproducing the observations. The modelling was based on replacing applied stresses in the linear convolution formulation with effective stresses; it included a mechanism for simulating the following effects: (i) short-lasting damage, (ii) long-lasting damage, (iii) stiffening under compressive conditions and (iv) healing during recovery intervals. As an initial validation effort, the model's reproducibility was assessed by calibration to a uniaxial compression experiment consisting of both small and medium strain levels. Next, the calibrated model was employed to forecast small-strain behaviour in a standard complex modulus test. The simulated results qualitatively agree with recently reported findings that challenge the existence of a linear viscoelastic domain for AC.
Modelling asphalt concrete viscoelasticity with damage and healing
2017
Aufsatz (Zeitschrift)
Englisch
Viscoelasticity , Stresses , Compression tests , Computer simulation , Damage , Asphalt concrete , Convolution , healing , damage , non-linear viscoelasticity , material characterisation , Reproducibility , constitutive modelling , Asphalt , Healing , Strain , Modelling , Stiffening , triaxial testing
Modelling asphalt concrete viscoelasticity with damage and healing
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