References
- Aïtcin, P.C. (2000). High performance concrete, modern concrete technology 5. London: E & FN Spon.
- ASTM C642 – 06 (2006). Standard test method for density, absorption, and voids in hardened concrete. West Conshohocken, PA: ASTM International.
- ASTM C-1116 (2010). Standard specification for fiber-reinforced concrete. West Conshohocken, PA: ASTM International.
- ASTM C-305 (2011). Standard practice for mechanical mixing of hydraulic cement pastes and mortars of plastic consistency. West Conshohocken, PA: ASTM International.
- Bencardino , F. , Rizzuti , L. , Spadea , G. and Swamy , R.N. 2008 . Stress-strain behaviour of steel fibers-reinforced concrete in compression . Journal of Materials in Civil Engineering – ASCE , 20 : 255 – 263 .
- Boutouil , M. 1998 . Traitement des vases de dragage par solidification/stabilization a base de ciment et additifs (Thèse doctoral) , France : Université du Havre .
- Building Research Establishment . 2003 . Marine aggregates in concrete, Digest 473 , Watford , , UK : Building Research Establishment .
- CEDEX (Centre for Studies and Experimentation of public Works) (1994). Recommendations for the management of dredged material in the ports of Spain. Madrid: Puertos del Estado. Retrieved from: http://www.cedex.es/
- Chen , W.F. 1970 . Double punch test for tensile strength of concrete . ACI Materials Journal , 67 : 993 – 995 .
- Colin , D. 2003 . Valorisation de sédiments fins de dragage en technique routière (Thèse doctoral) , France : Université de Caen .
- Dias , W.P.S. , Seneviratne , G.A.P.S.N. and Nanayakkara , S.M.A. 2008 . Offshore sand for reinforced concrete . Construction and Building Materials , 22 : 1377 – 1384 .
- Dubois , V. , Abriak , N.E. , Zentar , R. and Ballivy , G. 2009 . The use of marine sediments as a pavement base material . Waste Management , 29 : 774 – 782 .
- EHE (2008). Instrucción de Hormigón Estructural. 1ª Edición, Septiembre 2008, Madrid: Ministerio de Fomento.
- Gomes , P.C.C. 2002 . Optimization and characterization of high-strength self-compacting concrete (Doctoral thesis) , Barcelona , , Spain : Universitat Politècnica de Catalunya .
- Gutt , W. and Collins , R.J. 1987 . Sea-dredged aggregates in concrete , Watford , , UK : Building Research Establishment .
- Her-Yung , W. 2009 . Durability of self-consolidating lightweight aggregate concrete using dredged silt . Construction and Building Materials , 23 : 2332 – 2337 .
- Kamali , S. , Bernard , F. , Abriak , N.E. and Degrugilliers , P. 2008 . Marine dredged sediments as new materials resource for road construction . Waste Management , 28 : 919 – 928 .
- Levacher, D., Sanchez, M., Duan, Z., & Le Guern, C. (2008). Propriétés physiques et hydrauliques de sédiments marins en vue de réutilisation en remblais. In Centre Français du Littoral (Ed.) Xèmes JNGCGC, Sophia, Antipolis. DOI:10.5150/jngcgc.2008.072-L.
- Limeira , J. , Agullo , L. and Etxeberria , M. 2010 . Dredged marine sand in concrete: An experimental section of a harbor pavement . Construction and Building Materials , 24 : 863 – 870 .
- Marot , F. 1997 . Caracterisation et traitement de sediments de dragage contenant des polluants metalliques (Thèse doctoral) , France : Université du Havre .
- Murcia, J., Aguado, A., & Marí, A. (1993). Hormigón armado y pretensado I. Politext 14. Barcelona: Edicions UPC.
- Newman, K. (1968). Aspects of workability, strength, shrinkage and creep. In A.F.G. Lewis (Ed.) Proceedings of a Symposium: Sea-dredged aggregates for concrete. London: Cement and Concrete Association.
- Okamura, H. (1997). Self-compacting high performance concrete. Concrete International, 19(7), 50–54.
- Rekik, B., & Mohamed, B. (2006). Étude de la compressibilité et de la micro structure d’un sédiment de dragage traité au liant hydraulique. In Centre Français du Littoral (Ed.) IXèmes JNGCGC, Brest. DOI:10.5150/jngcgc.2006.061-R.
- Shacklock, B.W. (1968). Durability of concrete made with sea-dredged aggregate. In A. F. G. Lewis (Ed.) Proceedings of a Symposium: Sea-dredged aggregates for concrete. London: Cement and Concrete Association.
- UNE 83316:1996 (1996). Concrete tests. Determination of the modulus of elasticity in compression, ICS 91.100.30-10. Available from: www.aenor.es
- UNE 83982:2008 (2008). Concrete durability. Test methods. Determination of the capillar suction in hardened concrete. Fagerlund method, ICS 90.100.30-10, www.aenor.es
- UNE 83515:2010 (2010). Fibre reinforced concrete. Determination of cracking strength, ductility and residual tensile strength. Barcelona test, ICS 91.100.30-10, www.aenor.es
- UNE-EN 196–1 (2005). Methods of testing cement - Part 1: Determination of strength ICS 91.100.10-10. Retrieved from: www.aenor.es.
- UNE-EN 196–3 (2009). Methods of testing cement - Determination of setting times and soundness ICS 91.100.10. Retrieved from: www.aenor.es.
- UNE-EN 445 (2009). Grout for prestressing tendons – Test methods ICS 91.100.30-10. Retrieved from: www.aenor.es.
- UNE-EN 12390-6:2010 (2010). Testing hardened concrete - Part 6: Tensile splitting strength of test specimens, ICS 91.100.30. Retrieved from: www.aenor.es.
- UNE-EN 12390-8 (2011) For the test for depth of penetration of water under pressure: UNE-EN 12390-8:2009/1M:2011, 2011, Testing hardened concrete - Part 8: Depth of penetration of water under pressure, ICS 90.100.30. Retrieved from: www.aenor.es.
- UNE-EN 12390-3:2009/AC:2011 (2011). Testing hardened concrete - Part 3: Compressive strength of test specimens, ICS 91.100.30. Available at: www.aenor.es
- UNE-EN 14651:2007+A1:2008 (2011). Test method for metallic fibre concrete - Measuring the flexural tensile strength (limit of proportionality (LOP), residual), ICS 91.100.30. Available from www.aenor.es
- Zentar , R. , Dubois , V. and Abriak , N.E. 2008 . Mechanical behaviour and environmental impacts of a test road built with marine dredged sediments . Resources, Conservation and Recycling , 52 : 947 – 954 .