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Lanthanum-exchanged zeolite and clay as anticorrosive pigments for galvanized steel 被引量:1

Lanthanum-exchanged zeolite and clay as anticorrosive pigments for galvanized steel
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摘要 A wide variety of inhibitive pigments is now being offered as possible alternatives to chromate and lead compounds for painted metals protection. Unfortunately, the most wide spread of these substitute pigments, zinc phosphate, has, at present, raised some environmental concern because phosphate causes the eutrophication of water courses and zinc itself is toxic. The aim of this re-search was to study the anticorrosive performance of a mixture consisting of zinc phosphate, modified zeolite and clay (bentonite) in order to diminish phosphate content in paints. The zeolite and the clay were exchanged with La(III) ions, as inorganic green inhibitor. In the first step, the anticorrosion protection by La(III) ions in solution was assessed by electrochemical tests. In the second step, an epoxy-polyamide paint formulated with the pigment mixture applied on galvanized panels was studied by salt spray test and electro-chemical noise measurements (ENM). The results showed that it was possible to replace part of the zinc phosphate content in the paint with the exchanged zeolite and the clay. A wide variety of inhibitive pigments is now being offered as possible alternatives to chromate and lead compounds for painted metals protection. Unfortunately, the most wide spread of these substitute pigments, zinc phosphate, has, at present, raised some environmental concern because phosphate causes the eutrophication of water courses and zinc itself is toxic. The aim of this re-search was to study the anticorrosive performance of a mixture consisting of zinc phosphate, modified zeolite and clay (bentonite) in order to diminish phosphate content in paints. The zeolite and the clay were exchanged with La(III) ions, as inorganic green inhibitor. In the first step, the anticorrosion protection by La(III) ions in solution was assessed by electrochemical tests. In the second step, an epoxy-polyamide paint formulated with the pigment mixture applied on galvanized panels was studied by salt spray test and electro-chemical noise measurements (ENM). The results showed that it was possible to replace part of the zinc phosphate content in the paint with the exchanged zeolite and the clay.
作者 S.Roselli N.Bellotti C.Deyá M.Revuelta B.del Amo R.Romagnoli
机构地区 CIDEPINT(Centro de Investigación y Desarrollo en Tecnología de Pinturas)(CONICET-CIC)
出处 《Journal of Rare Earths》 SCIE EI CAS CSCD 2014年第4期352-359,共8页 稀土学报(英文版)
基金 Project supported by CONICET(Consejo Nacional de Investigaciones Científicas y Técnicas) UNLP(Universidad Nacional de La Plata) CICPBA(Comisión de Investigaciones Científicas de la Provincia de Buenos Aires)
关键词 exchanged pigments corrosion anticorrosive paints electrochemical noise measurements rare earths exchanged pigments corrosion anticorrosive paints electrochemical noise measurements rare earths
分类号 TQ628.3 [化学工程—精细化工] X131.2 [环境科学与工程—环境科学]
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  • 1Odum E P. Ecologia. Edited Nueva Editorial Interameri- carla, Mdxico DF, 1972, 117. 被引量:1
  • 2Mc Grath J W, Quinn J P. Phosphate removal: a novel ap- proach, Edited by Queen's University, Belfast, www.qub.ac.uk/envres/EarthAirwater/phosphate-removal. htm. Hare C. Extender pigments, Anatomy of paints, JPCL, 1990, 7(6): 43. 被引量:1
  • 3Hare C H. Synergistic effects of wollastonite/inhibitor concentrations in epoxy metal primers. Journal of Protec- tive Coatings and Linings, 1989, 6(9): 43. 被引量:1
  • 4E1-Sawy S. Egyptian kaolin as a filler and extender pig- ment for anticorrosive paints. Corrosion Prevention & Control, 1994, (April): 31. 被引量:1
  • 5Yeh J M, Liou S J, Lin C Y, Cheng C Y, Chang Y W, Lee K R. Anticorrosively enhance PMMA-clay nanocomposite materials with quaternary alkylphosphonium salt as an in- tercalating agent. Chem. Mater., 2002, 14: 154. 被引量:1
  • 6Yeh J M, Liou S J, Lay C Y, Wu P C, Tsai T Y. En- hancement of corrosion protection effect in polyaniline via the formation of polyaniline-clay nanocomposite materials Chem. Mater., 2001, 13:1131. . 被引量:1
  • 7Trinh A T, To T X H, Vu K O, Dantras E, Lacabanne C,.Oquab D, P6b6re N. Incorporation of an indole-3-butyric acid modified clay in epoxy resin for corrosion protection of carbon steel. Surf. Coat. Techn., 2008, 202(20): 4945. 被引量:1
  • 8Bohm S, McMurray H N, Powell S M, Worsley D A. Novel environment friendly corrosion inhibitor pigments based on naturally occurring clay minerals. Materials and Corrosion, 2001, 52(12): 896. 被引量:1
  • 9Kesavan D, Gopiraman M, Sulochana N. Green inhibitors for corrosion of metals: a review. Chem. Sci. Rev. Lett., 2012, 1(1): 1. 被引量:1
  • 10Bethencourt M, Botana F, Calvino J, Marcos M, Rodri- guez-Chacon M A. Lanthanide compounds as environ- mentally-friendly corrosion inhibitors of aluminium alloys: A review. Corr. Sci., 1998, 40:1803. 被引量:1

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Journal of Rare Earths
2014年 第4期

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