Synergistic Effects of Devulcanized Rubber, Polyethylene, and Fumed Silica on the Rheological and Structural Stability of Bitumen

Bussurmanova A. Akkenzheyeva A. Haritonovs V. Merijs-Meri R. Zicans J. Yensegenova U. Imanbayev Y. Ayapbergenov Y. Turkmenbayeva M. Aimova M. Boranbayeva A. Jankauskas M. Kornisovs R.
January 2026 Multidisciplinary Digital Publishing Institute (MDPI)

Polymers
2026 #18 Issue 2

This study examines the influence of virgin polyethylene (vPE), recycled polyethylene (rPE), and Aerosil (A) on the performance of bitumen binders modified with partially devulcanized rubber (DVR). The experimental program included morphology analysis, determination of devulcanization degree, dynamic viscosity measurements, shear stress–shear rate analysis, load–displacement (F–Δl) testing, storage-stability evaluation, ring and ball softening point (R&B), penetration (P), and elastic recovery (ER) testing. The results show that DVR-rPE-modified bitumen binders exhibit 20–35% higher viscosity and up to 25% greater elongation at the break compared to DVR-vPE-modified bitumen systems, indicating more effective interaction with the bitumen matrix. The incorporation of Aerosil increased viscosity ca. 1.5–2 times for DVR-rPE and DVR-vPE-modified systems, respectively. Meanwhile, top and bottom differences in R&B decreased by a factor of 1.6–5 for DVR-rPE and DVR-vPE-containing composites, respectively, demonstrating significant enhancement in structural stability during storage. Mechanical testing further revealed that DVR-rPE + A binders absorbed 10–20% more deformation energy and consistently maintained ER values above 70–80%, corresponding to a higher elastic recovery grade at 25 °C. Overall, the DVR-rPE + A system provided the most balanced improvements in rheological, mechanical, and thermal properties, confirming its potential for use in high-performance, thermally stable, and environmentally sustainable bituminous materials for pavement applications.

bitumen binder , elastic recovery , physicomechanical properties , rheological properties , storage stability

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Pedagogy Faculty, Yessenov University, 32 Microdistrict, Aktau, 130003, Kazakhstan
Engineering Faculty, Yessenov University, 32 Microdistrict, Aktau, 130003, Kazakhstan
Faculty of Civil and Mechanical Engineering, Riga Technical University, 6A Kipsalas Street, Riga, LV-1048, Latvia
Faculty of Natural Sciences and Technology, Riga Technical University, 3 Paula Valdena Street, Riga, LV-1048, Latvia
Faculty of Chemistry and Chemical Technology, Al-Farabi Kazakh National University, Al-Farabi Avenue 71, Almaty, 050040, Kazakhstan
Laboratory of Petrochemical Processes, Republican State Enterprise “Institute of Combustion Problems”, Bogenbay Street, 172, Almaty, 050012, Kazakhstan
Branch of Limited Liability Partnership “KazMunaiGas Engineering” “KazNIPImunaigas”, 35 Microdistrict, Section 6/1, Aktau, 130000, Kazakhstan
Joint-Stock Company “Polylema”, Jegaines Street 8Biruliskes, Kaunas, LT-54469, Lithuania

Pedagogy Faculty
Engineering Faculty
Faculty of Civil and Mechanical Engineering
Faculty of Natural Sciences and Technology
Faculty of Chemistry and Chemical Technology
Laboratory of Petrochemical Processes
Branch of Limited Liability Partnership “KazMunaiGas Engineering” “KazNIPImunaigas”
Joint-Stock Company “Polylema”

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Книга Публикация научной статьи Волощук 2026 Book Publication of a scientific article 2026