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Miscele stradali: le malte bituminose contenenti scoria “bianca” d’acciaieria

I più recenti sviluppi di una ricerca in corso presso il Dipartimento di Ingegneria Civile, Edile e Ambientale (ICEA) dell’Università degli Studi di Padova in collaborazione con l’Università di Burgos (Spagna)

sfondo pasetto

Bibliografia

  1. P. Ahmedzade, B. Sengoz – “Evaluation of steel slag coarse aggregate in hot mix asphalt concrete”, Journal of Hazardous Materials, 165(1-3), 300-305, 2009.
  2. M. Pasetto, N. Baldo – “Mix design and performance analysis of asphalt concrete with electric arc furnace slag”, Construction and Building Materials, 25(8), 3458-3468, 2011.
  3. H. Yi, G. Xu, H. Cheng, J. Wang, Y. Wan, H. Chen – “An overview of utilization of steel slag”, Procedia Environmental Sciences, 16, 791-801, 2012.
  4. M. Pasetto, G. Giacomello, E. Pasquini, F. Canestrari – “Effect of Warm Mix Chemical Additives on the Binder-Aggregate Bond Strength and High-Service Temperature Performance of Asphalt Mixes Containing Electric Arc Furnace Steel Slag”, RILEM Bookseries 11, 485-496, 2015.
  5. M. Pasetto, A. Baliello, G. Giacomello, E. Pasquini – “Rheological characterization of warm-modified asphalt mastics containing electric arc furnace steel slag”, Advances in Materials Science and Engineering, 2016.
  6. E.A. Oluwasola, M.R. Hainin, M.M.A. Aziz – “Comparative evaluation of dense graded and gap-graded asphalt mix incorporating electric arc furnace steel slag and copper mine tailings”, Journal of Cleaner Production, 122, 315-325, 2016.
  7. M. Sayadi, S. Hesami – “Performance evaluation of using electric arc furnace dust in asphalt binder”, Journal of Cleaner Production, 143, 1260-1267, 2016.
  8. M. Pasetto, A. Baliello, G. Giacomello, E. Pasquini – “Sustainable solutions for road pavements: a multi-scale characterization of warm mix asphalts containing steel slags”, Journal of Cleaner Production, 166, 835-843, 2017.
  9. J.M. Manso, M. Loasáñez, J.A. Polanco, J.J. González – “Ladle Furnace Slag in Construction”, Journal of Materials in Civil Engineering, 17(5), 513-518, 2005.
  10. J.M. Manso, D. Hernández, M.M. Losáñez, J.J. González – “Design and elaboration of concrete mixtures using steelmaking slags”, ACI Materials Journal, 108(6), 673-681, 2011.
  11. F. Maghool, A. Arulrajah, S. Horpibulsuk, Y-J Du – “Geotechnical properties of ladle furnace slag in roadwork applications”, Sixth International Conference on Geotechnique, Construction Materials and Environment, Bangkok, Thailand, 2016.
  12. M. Skaf, V. Ortega-López, J.A. Fuente-Alonso, A. Santamaría, J.M. Manso – “Ladle furnace slag in asphalt mixes”, Construction and Building Materials, 122, 488-495, 2016.
  13. E. Bocci – “Use of ladle furnace slag as filler in hot asphalt mixtures”, Construction and Building Materials, 161, 156-164, 2018.
  14. M. Skaf, V. Ortega-López, J.M. Manso, E. Pasquini, M. Pasetto – “Mix design and preliminary validation of sustainable asphalt concrete manufactured with electric arc and ladle furnace steel slags”, Road and Rail Infrastructure V – 5th International Conference on Road and Rail Infrastructure CETRA2018, Zara, Croatia, 2018.
  15. C. Riccardi, A. Cannone Falchetto, M. Losa, M.P. Wistuba – “Rheological modeling of asphalt binder and asphalt mortar containing recycled asphalt material”, Materials and Structures, 49, 4167-4183, 2016.
  16. C. Riccardi, A. Cannone Falchetto, M.P. Wistuba, M. Losa – “Fatigue comparisons of mortars at different volume concentration of aggregate particles”, International Journal of Fatigue, 104, 416-421, 2017.
  17. J. Muller, K.J. Jenkins – “The use of an extended rolling thin film ageing method as an alternative to the pressurised ageing vessel method in the determination of bitumen durability”, 10th Conference on Asphalt Pavements for Southern Africa, KwaZulu Natal, South Africa, 2011.
  18. M.L. Williams, R.F. Landel, J.D. Ferry – “The temperature dependence of relaxation mechanisms in amorphous polymers and other glassforming liquid”, Journal of the American Chemical Society, 77, 3701-3707, 1955.