Open Access
E3S Web Conf.
Volume 150, 2020
The Seventh International Congress “Water, Waste and Environment” (EDE7-2019)
Article Number 02017
Number of page(s) 6
Section Waste Treatment and Recovery Channels
Published online 12 February 2020
  1. N. Grubeša, I., Barišić, I., Fucic, A., & Bansode, S. S. Applications of steel slag in civil engineering. Characteristics and Uses of Steel Slag in Building Construction, 67–82 (2016). [Google Scholar]
  2. 3rd European Slag Conference: Proceedings Manufacturing and Processing of Iron and Steel Slags, EUROSLAG Publication, Keyworth, UK, pp. 7–20 2002, [Google Scholar]
  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). [Google Scholar]
  4. J. Guo, Y. Bao, &M. Wang. Steel slag in China: Treatment, recycling, and management. Waste Management, 78, 318–330 (2018). [CrossRef] [Google Scholar]
  5. C. Thomas, J. Rosales, J. A. Polanco, & F. Agrela. Steel slags. New Trends in Eco-Efficient and Recycled Concrete, 169–190 (2019). [Google Scholar]
  6. V. Ducman, & A. Mladenovič. The potential use of steel slag in refractory concrete. Materials Characterization, 62(7), 716–723 (2011). [Google Scholar]
  7. L. Chunlin, Z. Kunpeng, & C. Depeng. Possibility of Concrete Prepared with Steel Slag as Fine and Coarse Aggregates: A Preliminary Study. Procedia Engineering, 24, 412–416 (2011). [Google Scholar]
  8. H. Motz, J. Geiseler. Products of steel slags: an opportunity to save natural resources. Waste Management, 21(3), 285–293 (2001). [CrossRef] [Google Scholar]
  9. A. MICHARD, Eléments de la géologie marocaine. Notes et Mémoires, Service Géologique du Maroc, n°252, 420 (1976) [Google Scholar]
  10. M. Combe, Bassin du Rharb Maâmora. In ressources en eau du Maroc. Tome2.Notes et Mem, Serv, Geol, Maroc, 231, 93 e128 (1975) [Google Scholar]
  11. M. El Bouhaddioui, A. Mridekh, M. Kili, B. El Mansouri, El H. EL Gasmi, B. Magrane. Electrical and well log study of the Plio-Quaternary deposits of the southern part of the Rharg Basin, northern Morocco. Journal of African Earth Sciences (2016). [Google Scholar]
  12. IMANOR NM 10.1.015: Liants hydrauliques routiers Composition, spécifications et critères de conformité (2018). [Google Scholar]
  13. AFNOR NF EN 13282-1: Liants hydrauliques routiers - Partie 1: liants hydrauliques routiers à durcissement rapide - Composition, spécifications et critères de conformité (2014). [Google Scholar]
  14. AFNOR NF EN 13282-2: Liants hydrauliques routiers - Partie 2: liants hydrauliques routiers à durcissement normal - Composition, spécifications et critères de conformité (2015). [Google Scholar]
  15. Direction des routes et de la circulation routière & Laboratoire Public d’Essais et d’Etudes (Morocco): Guide marocain pour les terrassements routiers « GMTR » (2002). [Google Scholar]
  16. Guide technique SETRA-LCPC. Traitement des sols à la chaux et/ou aux liants hydrauliques- Application à la réalisation des remblais et des couches de forme (GTS). (janvier 2000). [Google Scholar]
  17. Sebbar, Nizar & Lahmili, A & Latifa, Ouadif & Akhssas, A & Bahi, Lahcen. (2018). Soil treatment in flood areas: case of the road RP4209, in the province of Kenitra (Morocco). MATEC Web of Conferences. 149. 02029. (2017). [CrossRef] [EDP Sciences] [Google Scholar]
  18. [Google Scholar]
  19. [Google Scholar]
  20. [Google Scholar]

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