Viabilidad de utilización de una pasta de cemento con nanofibras de carbono como ánodo en la extracción electroquímica de cloruros en hormigón

Références bibliographiques

• (1) Slater, J.E., Lankard, D.R., Moreland, P.J.: “Electrochemical removal of chlorides from concrete bridge decks”. Mater. Perform., 15 (1976) pp. 21-26. ISSN: 03611981
• (2) Vennesland, Ø.; Opsahl, O.A.; Russell-Rayner, A.P.: Removal of chlorides from concrete, European Patent Application number 86302888.2, Publication number 0 200 428, (1986).
• (3) Roper, H.: Method for inhibiting concrete cancer, World Intellectual Property Organization, International Patent Publication number WO 93/21130, (1993).
• (4) Bennett, J.E.; Blasius, J.R.; Mitchell, T.A.; Turk, T.R.; Schue, T.J.: Apparatus for the removal of chloride from reinforced concrete structures. U.S. Patent number 5296120, (1994).
• (5) Elsener, B.; Böhni, H.: “Electrochemical chloride removal field test”, in: R.N. Swamy, (Ed.), Corrosion and Corrosion Protection of Steel in Concrete, Vol. 2, Sheffield Academic Press, Sheffield, U.K., (1994), pp. 1451-1462.
• (6) Hope, B.B.; Ihekwaba, N.M.; Hansson, C.M.: “Influence of multiple rebar mats on electrochemical removal of chloride ions from concrete”, Materials Science Forum, Vols. 192-194 (1995), pp. 883-890. ISSN: 02555476
• (7) Andrade, C.; Castellote, M.; Alonso, C.: “An overview of electrochemical realkalisation and chloride extraction”, in D.W.S. Ho, I. Godson and F. Collins, eds., Proceedings of 2nd Int. RILEM/CSIRO/ACRA Conference on Rehabilitation of Structures, Melbourne, Australia, (1998), pp. 1-12.
• (8) Tritthart, J.: Electrochemical chloride removal: an overview and scientific aspects, in J. Skalny and S. Mindess, eds., Materials Science of Concrete V, published by the American Ceramic Society, Westerville, Ohio, USA, (1998), pp. 401-441.
• (9) Electrochemical Rehabilitation Methods for Reinforced Concrete Structures. A State of the Art Report, J. Mietz, ed., Publication number 24 of the European Federation of Corrosion, IOM Communications Ltd., London, (1998), pp. 57 .
• (10) Orellan, J.C.; Escadeillas, G.; Arliguie, G.: “Electrochemical chloride extraction: efficiency and side effects”, Cem. Concr. Res., 34 (2004) pp. 227-234.http://dx.doi.org/10.1016/j.cemconres.2003.07.001
• (11) Polder, R.B.: Electrochemical techniques for corrosion protection and maintenance, in: H. Böhni, (Ed.), Corrosion in Reinforced Concrete Structures, Woodhead Publishing, Cambridge, UK, (2005), pp. 215-241.http://dx.doi.org/10.1533/9781845690434.215
• (12) Climent, M.A.; Sánchez de Rojas, M.I.; de Vera, G.; Garcés, P.: “Effect of type of anodic arrangements on the efficiency of electrochemical chloride removal from concrete”, ACI Mat. J., 103 (4) (2006), pp. 243-250. ISSN: 0889325X
• (13) Yeih, W.; Chang, J.J.; Hung, C.C.: “Selecting an adequate procedure for the electrochemical chloride removal”, Cem. Concr. Res., 36 (2006) pp. 562-570.http://dx.doi.org/10.1016/j.cemconres.2005.12.008
• (14) Garcés, P.; Sánchez de Rojas, M.I.; Climent, M.A.: “Effect of the reinforcement bar arrangement on the efficency of electrochemical chloride removal technique applied to reinforced concrete structures”, Corros. Sci., 48 (3) (2006) pp. 531-545.http://dx.doi.org/10.1016/j.corsci.2005.02.010
• (15) Miranda, J.M.; González, J.A.; Cobo, A.; Otero, E.: “Several questions about electrochemical rehabilitation methods for reinforced concrete structures”, Corros. Sci, 48 (2006) pp. 2172–2188.http://dx.doi.org/10.1016/j.corsci.2005.08.014
• (16) Sánchez de Rojas, M.I.; Garcés, P.; Climent, M.A.: “Extracción electroquímica de cloruros del hormigón armado: estudio de diferentes variables que influyen en la eficacia del tratamiento”, Mater. Construcc., 56 (284) (2006) pp. 7-26. ISSN: 04652746
• (17) Toumi, A.; François, R.; Alvarado, O.: “Experimental and numerical study of electrochemical chloride removal from brick and concrete specimens”, Cem. Concr. Res., 37 (2007) pp. 54-62.http://dx.doi.org/10.1016/j.cemconres.2006.09.012
• (18) Miranda, J.M.; Cobo, A.; Otero, E.; González, J.A.: “Limitations and advantages of electrochemical chloride removal in corroded reinforced concrete structures”, Cem. Concr. Res., 37 (2007) pp. 596-603.http://dx.doi.org/10.1016/j.cemconres.2007.01.005
• (19) Abdelaziz, G.E.; Abdelalim, A.M.K.; Fawzy, Y.A.: “Evaluation of the short and longterm efficiencies of electro-chemical chloride extraction”, Cem. Concr. Res., 39 (2009) pp. 727-732.http://dx.doi.org/10.1016/j.cemconres.2009.05.015
• (20) Pérez, A.; Climent, M.A.; Garcés, P.: “Electrochemical extraction of chlorides from reinforced concrete using a conductive cement paste as an anode”, Corros. Sci., 52 (2010) pp. 1576-1581.http://dx.doi.org/10.1016/j.corsci.2010.01.016
• (21) Bertolini, L.; Bolzoni, F.; Pastore, T.; Pedeferri, P.: “Effectiveness of a conductive cementitious mortar anode for cathodic protection of steel in concrete”, Cem. Concr. Res., 34 (4) (2004) pp. 681-694.http://dx.doi.org/10.1016/j.cemconres.2003.10.018
• (22) Xu, J.; Yao, W.: “Current distribution in reinforced concrete cathodic protection system with conductive mortar overlay anode”, Const. Build. Mat., 23 (6) (2009) pp. 2220-2226.http://dx.doi.org/10.1016/j.conbuildmat.2008.12.002
• (23) Profile Grinder (PF-1100), Germann Instruments A/S, Copenhagen, Denmark, (1996).
• (24) Climent, M.A.; de Vera, G.; Viqueira, E.; López, M.M.: “Generalization of the possibility of eliminating the filtration step in the determination of acid-soluble chloride content in cement and concrete by potentiometric titration”, Cem. Concr. Res., 34 (12) (2004) pp. 2291-2295.http://dx.doi.org/10.1016/j.cemconres.2004.04.012
• (25) Climent M.A.; Viqueira E.; de Vera G., López M.M., “Chloride contamination of concrete by interaction with PVC combustion gases”, Cem. Concr. Res., 28 (2) (1998) pp. 209-219.http://dx.doi.org/10.1016/S0008-8846(97)00270-6
• (26) de Vera G., Climent M.A., Viqueira E.; Antón C.; Andrade C.: “A test method for measuring chloride diffusion coefficients through partially saturated concrete. Part II: The instantaneous plane source diffusion case with chloride binding consideration”, Cem. Concr. Res., 37 (5) (2007) pp. 714-724.http://dx.doi.org/10.1016/j.cemconres.2007.01.008
• (27) Título: Composite cementicio con nanofibras de carbono para monitorización de deformaciones,. Solicitud de Patente: P200901735. Investigador responsable: Pedro Garcés.
• (28) Título: Composite cementicio con nanofibras de carbono para calefacción, Solicitud de patente: P200901735. Investigador responsable: Pedro Garcés.