Issue 117, 2015

AFM study of asphalt binder “bee” structures: origin, mechanical fracture, topological evolution, and experimental artifacts

Abstract

The morphology of “bee” structures on the surface of bituminous asphalt binder was studied by AFM microscopy to provide insight into their origin. Based on how the “bees” flattened and fractured under applied tensile strain, the “bee” structures were hypothesized to be the result of wrinkling of very thin surface films on the order of 10 nm thick. Theories of thin film deformation suggest that the wavelength and amplitude of the “bees” may be related to the stiffness and thermal expansion coefficient of the bitumen. The study also showed that “bee” structures exhibited topological evolution over time depending on humidity and temperature in a manner consistent with the idea of the “bees” being composed of crystallized hydrophobic wax. The results of this paper should contribute to a better understanding of the relation between “bee” structures and bituminous material properties.

Graphical abstract: AFM study of asphalt binder “bee” structures: origin, mechanical fracture, topological evolution, and experimental artifacts

Supplementary files

Article information

Article type
Paper
Submitted
16 Jul 2015
Accepted
26 Oct 2015
First published
11 Nov 2015

RSC Adv., 2015,5, 96972-96982

Author version available

AFM study of asphalt binder “bee” structures: origin, mechanical fracture, topological evolution, and experimental artifacts

A. M. Hung and E. H. Fini, RSC Adv., 2015, 5, 96972 DOI: 10.1039/C5RA13982A

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