Experimental Investigation on Water Loss and Stiffness of CBTM Using Different RA Sources

Grilli, Andrea; Raschia, Simone; Perraton, Daniel; Carter, Alan; Rahmanbeiki, Amir; Kara De Maeijer, Patricia; Lo Presti, Davide; Airey, Gordon; Ogbo, Chibuike; Dave, Eshan V.; Tebaldi, Gabriele

doi:10.1007/978-3-030-46455-4_2

Experimental Investigation on Water Loss and Stiffness of CBTM Using Different RA Sources

Grilli, Andrea; Raschia, Simone; Perraton, Daniel; Carter, Alan; Rahmanbeiki, Amir; Kara De Maeijer, Patricia; Lo Presti, Davide; Airey, Gordon; Ogbo, Chibuike; Dave, Eshan V.; Tebaldi, Gabriele

Authors

Andrea Grilli

Simone Raschia

Daniel Perraton

Alan Carter

Amir Rahmanbeiki

Patricia Kara De Maeijer

Davide Lo Presti

Professor GORDON AIREY GORDON.AIREY@NOTTINGHAM.AC.UK
PROFESSOR OF PAVEMENT ENGINEERING MATERIALS

Chibuike Ogbo

Eshan V. Dave

Gabriele Tebaldi

Contributors

H Di Benedetto
Editor

H Baaj
Editor

E Chailleux
Editor

G Tebaldi
Editor

C Sauzéat
Editor

S Mangiafico
Editor

Abstract

Cold recycling of reclaimed asphalt (RA) is a promising technique to build or to maintain roads, combining performance and environmental advantages. Although this technique has been extensively used worldwide, there is no unique and internationally-shared method to characterize cold recycled mixtures. The previous work of the RILEM TC 237-SIB TG6 successfully attempted to characterize different RA sources with both traditional parameters (gradation, bitumen content and geometrical properties) and non-conventional properties (fragmentation and strength testing). The current RILEM TC 264-RAP TG1 mainly focuses on the influence of different RA sources on physical and mechanical characteristics of cement-bitumen treated materials (CBTM) using foam or emulsified bitumen, taking into consideration compaction and curing methods. This paper presents results from the first step of the inter-laboratory project in which foamed bitumen and cement were used as binders. The influence of two RA sources, one from Alabama (USA) and one from San Marino, were investigated through the collaboration of several laboratories. Specimens were manufactured with the same diameter by means of both Marshall and gyratory compactors and then cured following two procedures: free surface drying (FSD) and partially-surface drying (PSD). A preliminary study allowed obtaining specimens with similar volumetric properties. Along with compactability and water loss, the indirect tensile stiffness modulus was measured and analyzed. The results have shown that the RA source and curing procedure influence the CBTM mechanical properties.

Citation

Grilli, A., Raschia, S., Perraton, D., Carter, A., Rahmanbeiki, A., Kara De Maeijer, P., Lo Presti, D., Airey, G., Ogbo, C., Dave, E. V., & Tebaldi, G. (2020, December). Experimental Investigation on Water Loss and Stiffness of CBTM Using Different RA Sources. Presented at RILEM International Symposium on Bituminous Materials, Lyon, France (online)

Presentation Conference Type	Edited Proceedings
Conference Name	RILEM International Symposium on Bituminous Materials
Start Date	Dec 14, 2020
End Date	Dec 16, 2020
Acceptance Date	Jul 1, 2021
Online Publication Date	Sep 26, 2021
Publication Date	2022
Deposit Date	Jan 31, 2022
Publicly Available Date	Sep 27, 2022
Pages	11-17
Series Title	RILEM Bookseries
Series Number	27
Series ISSN	2211-0852
Book Title	Proceedings of the RILEM International Symposium on Bituminous Materials: ISBM Lyon 2020
Chapter Number	2
ISBN	9783030464547
DOI	https://doi.org/10.1007/978-3-030-46455-4_2
Public URL	https://nottingham-repository.worktribe.com/output/7350080
Publisher URL	https://link.springer.com/chapter/10.1007%2F978-3-030-46455-4_2