Impact of maltene and asphaltene fraction on mechanical behavior and microstructure of bitumen

As a widely accepted concept, bitumen consists of four fractions that can be distinguished by their polarity. Highly polar asphaltene micelles are dispersed in a viscous phase of saturates, aromatics and resins (maltene phase). Different concentrations of asphaltenes in the bitumen result in a range...

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Bibliographic Details
Published in:Materials and structures 2016-03, Vol.49 (3), p.829-841
Main Authors: Hofko, B., Eberhardsteiner, L., Füssl, J., Grothe, H., Handle, F., Hospodka, M., Grossegger, D., Nahar, S. N., Schmets, A. J. M., Scarpas, A.
Format: Article
Language:English
Subjects:
Asphaltenes
Asphalts
Atomic force microscopy
Bitumens
Building construction
Building Materials
Civil Engineering
Engineering
Machines
Maltenes
Manufacturing
Materials Science
Mechanical properties
Microstructure
Original Article
Processes
Solid Mechanics
Theoretical and Applied Mechanics
Viscoelasticity
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Summary:As a widely accepted concept, bitumen consists of four fractions that can be distinguished by their polarity. Highly polar asphaltene micelles are dispersed in a viscous phase of saturates, aromatics and resins (maltene phase). Different concentrations of asphaltenes in the bitumen result in a range of mechanical response properties. In an interdisciplinary study the impact of the maltene phase and asphaltenes on the linear viscoelastic behavior and the microstructure of bitumen were analyzed by creep recovery testing in a DSR and by atomic force microscopy (AFM). Therefore, bitumen was separated into the maltene and asphaltene fractions and artificial bitumen samples with different, pre-defined asphaltene concentrations were produced and investigated. It was found that the artificially produced, precipitated bitumen samples can be regarded as a representative, bitumen-like material in terms of mechanical behavior and microstructure. Asphaltenes play an important role in the typical viscoelastic behavior of bitumen being mainly responsible for stiffness and elasticity. Also, their concentration appears to be correlated to the occurrence and shape of the bee-like inclusions which can be typically observed by AFM.
ISSN:1359-5997
1871-6873
DOI:10.1617/s11527-015-0541-6