References
- Asphalt Academy. (2009). Technical guideline (TG2): Bitumen stabilized materials (2nd ed.). Pretoria: CSIR Built Environment.
- Autostrade per l'Italia SpA. (2008). Construction specifications for stabilization with foamed bitumen (in Italian).
- Bocci, M., Grilli, A., Cardone, F., & Ferrotti, G. (2012). Full depth reclamation for the rehabilitation of local roads: A case study. International Journal of Pavement Engineering. 10.1080/14680629.2012.742624, 2012
- Bocci, M., Grilli, A., Cardone, F., & Graziani, A. (2011). A study on the mechanical behaviour of cement-bitumen treated materials. International Journal of Construction and Building Materials, 25(2), 773–778.
- Cardone, F., Grilli, A., Bocci, M., & Graziani, A. (2014). Curing and temperature sensitivity of cement–bitumen treated materials. International Journal of Pavement Engineering. 10.1080/10298436.2014.966710
- Chailleux, E., Ramond, G., Such, C., & de La Roche, C. (2006). A mathematical-based master-curve construction method applied to complex modulus of bituminous materials. Road Materials and Pavement Design, 7 (sup1), 75–92.
- Dal Ben, M., & Jenkins, K. J. (2014). Performance of cold recycling materials with foamed bitumen and increasing percentage of reclaimed asphalt pavement. Road Materials and Pavement Design, 15(2), 348–371. doi:10.1080/14680629.2013.872051
- Di Benedetto, H., Partl, M. N., Francken, L., & De La Roche, C. (2001). Stiffness testing for bituminous mixtures. Materials and Structures, 34(2), 66–70.
- Emri, I. (2005). Rheology of solid polymers. Rheology Reviews, 49–100.
- Ferry, J. D. (1980). Viscoelastic properties of polymers (3rd ed.). New York, NY: John Wiley.
- Gao, L., Ni, F., Charmot, S., & Li, Q. (2014). High-temperature performance of multilayer pavement with cold in-place recycling mixtures. Road Materials and Pavement Design, 15(4), 804–819. doi:10.1080/14680629.2014.924427
- García, A., Lura, P., Partl, M. N., & Jerjen, I. (2013). Influence of cement content and environmental humidity on asphalt emulsion and cement composites performance. Materials and structures, 46(8), 1275–1289.
- Godenzoni, C., Graziani, A., & Bocci, M. (2015a). Influence of reclaimed asphalt content on the complex modulus of cement bitumen treated materials. Proceedings 6th international conference bituminous mixtures and pavements, Thessaloniki, Greece (pp. 589–596). London: Taylor & Francis Group. ISBN 978-1-138-02866-1.
- Godenzoni, C., Graziani, A., & Bocci, M. (2015b, October 7–9) The effect of curing on the mechanical behavior of cement-bitumen treated materials. Proceedings 8th international Rilem symposium sustainable and innovative bituminous materials, Ancona, Italy.
- Graziani, A., Bocci, M., & Canestrari, F. (2014). Complex Poisson's ratio of bituminous mixtures: Measurement and modeling. Materials and structures, 47(7), 1131–1148.
- Grilli, A., Graziani, A., & Bocci, M. (2012). Compactability and thermal sensitivity of cement-Bitumen treated materials. Road Materials and Pavement Design, 13(4), 599–617.
- Jenkins, K. J., Long, F. M., & Ebels, L. J. (2007). Foamed bitumen mixes – Shear performance? International Journal of Pavement Engineering, 8(2), 85–98.
- Kearney, E. (1997). Cold mix recycling: State-of-the-practice (with discussion). Journal of the Association of Asphalt Paving Technologists, 66, 760–784.
- Khosravifar, S., Schwartz, C. W., & Goulias, D. G. (2015). Mechanistic structural properties of foamed asphalt stabilised base materials. International Journal of Pavement Engineering, 16(1), 27–38.
- Kim, Y., & Lee, H. D. (2006). Development of mix design procedure for cold in-place recycling with foamed asphalt. Journal of Materials in Civil Engineering, 18(1), 116–124.
- Kuna, K., Airey, G., & Thom, N. (2014). Laboratory mix design procedure for foamed Bitumen mixtures. Transportation Research Record, 2444(1), 1–10.
- Lesueur, D., Clech, H., Brosseaud, A., Such, C., Cazacliu, B., Koenders, B., … Bonvallet, J. (2004). Foamability and foam stability. Road materials and pavement design, 5(3), 277–302.
- Loizos, A. (2007). In-situ characterization of foamed bitumen treated layer mixes for heavy-duty pavements. International Journal of Pavement Engineering, 8(2), 123–135.n
- Mangiafico, S., Di Benedetto, H., Sauzéat, C., Olard, F., Pouget, S., & Planque, L. (2013). Influence of reclaimed asphalt pavement content on complex modulus of asphalt binder blends and corresponding mixes: Experimental results and modelling. Road Materials and Pavement Design, 14(sup1), 132–148.
- Olard, F., & Di Benedetto, H. (2003). General “2S2P1D” model and relation between the linear viscoelastic behaviours of bituminous binders and mixes. Road Materials and Pavement Design, 4(2), 185–224.
- Pellinen, T., Zofka, A., Marasteanu, M., & Funk, N. (2007). The use of asphalt mixture stiffness predictive models. Asphalt Paving Technology-Proceedings, 76, 575–625.
- Roberts, F. L., Kandhal, P. S., Brown, E. R., Lee, D. Y., & Kennedy, T. W. (1996). Hot mix asphalt materials, mixture design and construction (2nd ed.). Lanham, MA: NAPA.
- Santagata, F. A., Bocci, M., Grilli, A., & Cardone, F. (2009). Rehabilitation of an Italian highway by cold in-place recycling techniques Vol. 2 (pp. 1113–1122). Proceedings of the 7th international RILEM symposium on advanced testing and characterization of bituminous materials, Rhodes, Greece.
- Santagata, E., Chiappinelli, G., Riviera, P. P., & Baglieri, O. (2010). Triaxial testing for the short term evaluation of cold-recycled bituminous mixtures. Road Materials and Pavement Design, 11(1), 123–147.
- Stimilli, A., Ferrotti, G., Graziani, A., & Canestrari, F. (2013). Performance evaluation of cold recycled mixture containing high percentage of reclaimed asphalt. Road Materials and Pavement Design, 14(sup.1), 149–161.
- Stroup-Gardiner, M. (2011). Recycling and reclamation of Asphalt pavements using in-place methods (No. Project 20-05 (Topic 40-13)).
- Wirtgen Cold Recycling Technology (3rd ed.). (2010). Windhagen: Wirtgen GmbH.