%X This study aimed to evaluate the effects of nano silica (NS) particles on the high-temperature rheological properties of tyre pyrolysis oil (TPO)-modified bitumen. Physical tests, short-term aging, temperature sweep test and multiple stress creep recovery (MSCR) test were conducted to evaluate the effects of NS on the high-temperature rheological performance. Results indicate that the inclusion of NS to TPO-modified bitumen displayed significant improvement in rutting resistance before and after aging. Meanwhile, MSCR results showed that the high-temperature performance grade of bitumen was upgraded from PG 64S in the case of base and TPO-modified bitumen to PG 64 V at 10 TPO and 4 NS. Statistical analysis also showed that the effects of NS particles on the rutting performance of TPO-modified bitumen are statistically significant within the confidence interval of 95. These findings present a remarkable enhancement in the high-temperature performance of TPO-modified bitumen. © 2021 Informa UK Limited, trading as Taylor & Francis Group.
%K Pyrolysis; Silica, Confidence interval; High temperature performance; Multiple stress creep recoveries; Nanosilica particles; Rheological property; Rutting performance; Rutting resistance; Temperature sweeps, Bituminous materials
%J Road Materials and Pavement Design
%L scholars17902
%O cited By 3
%N 9
%R 10.1080/14680629.2021.1945483
%D 2022
%I Taylor and Francis Ltd.
%V 23
%A A. Al-Sabaeei
%A M. Napiah
%A M. Sutanto
%A N.Z. Habib
%A N. Bala
%A I. Kumalasari
%A A. Ghaleb
%T Application of nano silica particles to improve high-temperature rheological performance of tyre pyrolysis oil-modified bitumen
%P 1999-2017