Yerik Amirbayev scite author profile

In this paper, a conventional road bitumen with penetration grade 100–130 is compounded with tar in order to obtain bitumen with improved low temperature resistance. The low temperature (at −24 °C, −30 °C and −36 °C) resistance of the virgin bitumen and the compounded one is evaluated by testing on a bending beam rheometer. It was found that the optimum compounding (20% of tar by weight) decreases the stiffness essentially (from 18% to 34%), i.e., it increases the low temperature resistance of the bitumen. The stiffness decreases in the compounded bitumen can be explained by quantitative variations in its group chemical composition and molecular fragments. Group chemical composition has been determined by the method of absorption chromatography, and the fragments of molecules are identified by NMR-spectroscopy.

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Rheological Properties of Oxidized Bitumen with Polymer Additive

Teltayev¹,

Galiya²,

Amirbayev³

2014

J. of Applied Sciences

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Yerik Amirbayev

Characterization of asphalt bitumens and asphalt concretes modified with carbon powder

Low Temperature Resistance Increase for Bitumen by Compounding with Tar

Rheological Properties of Oxidized Bitumen with Polymer Additive

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