期刊
CONSTRUCTION AND BUILDING MATERIALS
卷 329, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.conbuildmat.2022.127102
关键词
Rheology; Permanent deformation; Asphalt mastic; Filler/bitumen; Creep-recovery; Hydrated lime; Fly ash
资金
- National Research and Development Agency (ANID) of Chile [FONDECYT ] [N?1201029, N?1211160]
This study focuses on the mechanical behavior of asphalt mastic with filler particles bonded with asphalt bitumens. A new methodology for rheological characterization of elastic properties of filler and elastic-viscous properties of asphalt bitumen is proposed. The results show a better fit to the experimental curves and differentiate the elastic capacity of each filler. The new model can be used to modify bitumen properties for optimized and stronger asphalt mixtures.
This study focuses on the mechanical behaviour of asphalt mastic composed of filler particles bonded with an asphalt bitumens. Asphalt mastics are viscoelastic composite materials widely used in the construction of pavement layers. The mechanical properties and the influence of the fillers on the filler/bitumen (f/b) matrix is one of the main areas of current research. In particular, the elastic determination of fillers for mechanical testing in asphalt mastic is relevant to understand permanent deformation caused by temperature variations caused by seasonal changes and vehicular traffic loads. In this sense, this research proposes a new methodology for rheological characterization of the elastic properties of the filler xi(2)& nbsp; and elastic-viscous properties of the asphalt bitumen, xi(1) and eta, respectively, complementing the existing designs of asphalt mixture. The proposed methodology allows for identification of the influence of non-conventional fillers in the behavior of the asphalt mastic for the different recovery cycles of the Multiple Stress Creep Recovery (MSCR) and determination of new rheological parameters for the compression of the recovery phenomena and the elastic capacity of the type of filler and weight of the base bitumen. The results obtained show a greater adjustment to the experimental curves in determining the elastic modulus in each cycle for the hydrated lime and fly ash fillers with different filler/ bitumen ratios. In particular, the proposed model for bituminous mastics achieves a strong fit with the experi-mental curves by empirically reducing the quadratic error (R2 = 0.99) and managing to differentiate the elastic capacity xi(2) of each filler and its effect with increasing concentration. For example, it establishes that the Hy-drated lime filler (HL) acquires an average Young's modulus of 0.005 MPa, being 99.31% more elastic than Fly ash filler (FA) for a load of 3.2 kPa at a 1.25f/b ratio. In addition, the new model can be used to modify bitumen properties to design optimized and stronger asphalt mixtures.
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