Influence of Fe-Zn intermetallic layer on corrosion behaviour of galvanized concrete reinforcement

1. El-Hawary M. M. et al., Evaluation of bond strength of epoxy-coated bars in concrete exposed to marine environment, Construction and Building Materials 1999, 13, 357-362.10.1016/S0950-0618(99)00042-2Search in Google Scholar

2. Kobayashi K. et al., Experimental studies on epoxy coated reinforcing steel for corrosion protection, The International Journal of Cement Composites and Lightweight Concrete 1984, 6 (2), 99-116.10.1016/0262-5075(84)90039-3Search in Google Scholar

3. Assaad J. J. et al., Bond stregth of epoxy-coated bars in underwater concrete, Construction and Building Materials 2011, 30, 667-674.10.1016/j.conbuildmat.2011.12.047Search in Google Scholar

4. Cusens A. et al., Pullout Tests of Epoxy-Coated Reinforcement in Concrete, Cement and Concrete Composites 1992, 14, 269-276.10.1016/0958-9465(92)90025-QSearch in Google Scholar

5. Swamy R., Epoxy coated rebars-The panacea for steel corrosion in concrete, Construction and Building Materials 1989, 3 (2), 86-91.10.1016/S0950-0618(89)80006-6Search in Google Scholar

6. Pokorný P., Kouřil M., Simon P., Hrdlička L., Faktory ovlivňující soudržnost povlakované výztuže s betonem, TriboTechnika 2014, 2, 80-82.Search in Google Scholar

7. Pokorný P. et. al., Zhodnocení rizik spojených s využitím žárově zinkované výztuže betonu, Beton TKS 2015, 6, 49-55.Search in Google Scholar

8. Wienerová K., Kouřil M., Stoulil J., Koroze a ochrana zinkované oceli v prostředí betonu, Koroze a ochrana materiálu 2010, 54 (4), 148-154.Search in Google Scholar

9. Tonini D. E. et al., Chloride corrosion of steel in concrete, American Society for Testing and Materials, Baltimore, 1977.10.1520/STP629-EBSearch in Google Scholar

10. Bertolini L. et. al., Corrosion of Steel in Concrete (Prevention, Diagnosis, Repair), WILEY-VCH Verlag:Weinheim, 2004.10.1002/3527603379Search in Google Scholar

11. Menzel K., Zur Korrosion von verzinktem Stahl in Kontakt mit Beton - IWB (Mitteilungen), Universität Stuttgart, 1992.Search in Google Scholar

12. Hill G. A., Spellman D. L., Stratfull, R. F., Laboratory corrosion tests of galvanized steel in concrete, Technical Report: CA-DOT-Tl-5351-1-76-02, 1976, California, 1-24.Search in Google Scholar

13. Kuklík V., Kudláček J., Žárové zinkování, 1st ed; AČSZ, Praha, 2014.Search in Google Scholar

14. Eriksson H., Hirnová A., Příručka žárového zinkování, 3rd ed; AČSZ:Ostrava, 2009.Search in Google Scholar

15. Housecroft C. E., Sharpe, A. G., Inorganic Chemistry, 4 th ed; Pearson Education:Fairford, 2012.Search in Google Scholar

16. Pokorný P., Vliv koroze zinkované oceli na soudržnost s betonem, Koroze a ochrana materiálu 2012, 56 (4), 119-135.10.2478/v10227-011-0020-9Search in Google Scholar

17. Marder A. R., The metalurgy of zinc-coated steel, Progress in Material Science 2000, 45, 191-271.10.1016/S0079-6425(98)00006-1Search in Google Scholar

18. Yeomans S. R., Galvanized steel reinforcement in concrete, 2nd ed.; Elsevier:Canberra, 2004.10.1016/B978-008044511-3/50016-5Search in Google Scholar

19. Brown P. J., The structure of the ζ - phase in the transicion metal-zinc alloy systems, Acta Crystallographica 1962, 15, 608.10.1107/S0365110X62001528Search in Google Scholar

20. Gellings P.J., de Bree E.W., Gierman G., Synthesis and Characterization of Homogeneous Intermetallic Fe-Zn Compounds, Part 2., International Journal of Materials Research 1979, 70 (5), 315-317.10.1515/ijmr-1979-700507Search in Google Scholar

21. Belin R., Tillard M., Monconduit, L., Redetermination of the iron-zinc phase FeZn13, Acta Crystallographica C 2000, 56, 267-268.10.1107/S0108270199014997Search in Google Scholar

22. Okamoto N. L., Inomoto M., Adachi H., Takebayashi H., Inui H., Micropillar compression deformation of single crystals of the intermetallic compound ζ - FeZn13, Acta Materialia 2014, 65, 229-239.10.1016/j.actamat.2013.10.065Search in Google Scholar

23. Okamoto N. L., Kashioka D., Inomoto M., Inui H., Takebayashi H., Yamaguchi S., Compression deformability of Γ and ζ Fe - Zn intermetallics to mitigate detachment of brittle intermetallic coating of galvannealed steels, Scripta Materialia 2013, 307-310.10.1016/j.scriptamat.2013.05.003Search in Google Scholar

24. Okamota N. L., Yasuhara A., Inui H., Order-disorder structure of the δ1k phase in the Fe - Zn system determined by scanning transmission electron microscopy, Acta Materialia 2014, 81, 345-357.10.1016/j.actamat.2014.08.025Search in Google Scholar

25. Bastin G. F., van Loo F. J. J., Rieck G. D., On The δ-Phase in The Fe-Zn System, Metallkunde 1977, 68, 359-361.10.1515/ijmr-1977-680508Search in Google Scholar

26. Okamoto N. L., Tanaka K., Yasuhara A., Inui H., Structure refi nement of the δ1p phase in the Fe-Zn system by single-crystal X-ray diffraction combined with scanning transmission electron microscopy, Acta Crystallographica B70 2014, 275-282.Search in Google Scholar

27. Belin C. H. E., Belin, R. C. H., Synthesis and Crystal Structure Determinations in the Γ and δ Phase Domains of the Iron-Zinc System: Electronic and Bonding Analysis of Fe13Zn39 and FeZn10, a Subtle Deviation from the Hume- Rothery Standard, Journal of Solid State Chemistry 2000, 151, 85-95.10.1006/jssc.2000.8626Search in Google Scholar

28. Rangarajan V., Cheng C. C., Franks, L. L., Texture in the δ-(FeZn10) phase formed in galvanneal coatings, Surface and Coatings Technology 1993, 56, 209-214.10.1016/0257-8972(93)90253-KSearch in Google Scholar

29. Hu X., Watanabe T., Relationship between the Crystallographic Structure of Electrodeposited Fe-Zn Alloy Film and Its Thermal Equilibrium Diagram, Materials Transactions 2001, 42, 1969-1976.10.2320/matertrans.42.1969Search in Google Scholar

30. Yu J., Liu J., Zhou W., Zhang J., Wu J., Cross-sectional TEM observation of iron-zinc intermetallic Γ and Γ1 phases in commercial galvannealed IF steel sheets, Materials and Design 2007, 28, 249-253.10.1016/j.matdes.2005.04.011Search in Google Scholar

31. Koster A. S., Schoone J. C., Structure of the Cubic Iron- Zinc Phase Fe22Zn78, Acta Crystallographica 1981, 1905-1907.10.1107/S056774088100753XSearch in Google Scholar

32. Hu X., Zhou X., Effects on Steel Coatings Microstructure on Weldability in Resistance Spot Welding of Galvannealed Steel Sheets, Advanced Materials Research 2010, 139, 610-613.10.4028/www.scientific.net/AMR.139-141.610Search in Google Scholar

33. Maaß P., Peißker P., Handbuch Feuerverzinken, 3rd ed., Wiley-Verlag VCH:Weinheim/Bergstrasse, 2008.10.1002/9783527622344Search in Google Scholar

34. Llewellyn D. T., Hudd R. C., Steels: Metallurgy and Applications, 3rd ed., Butterworth - Heinemann:Oxford 1998.Search in Google Scholar

35. ISO 1461:2009 - Hot dip galvanized coatings on fabricated iron and steel articles.Search in Google Scholar

36. Kuklík V., Metalurgie tvorby povlaku žárového zinku, TriboTechnika 2014, 1, 38-41.Search in Google Scholar

37. Kollárová M., Džupon M., Leško A., Parilák Ľ., Formation of outburst structure in hot-dip galvannealed coatings on IF steels, Metalurgija 2007, 46, 9-14.Search in Google Scholar

38. Jordan C. E., Zuhr R., Marder A. R., Effect of Phosphorous Surface Segregation on Iron-Zinc Reaction Kinetics during Hot-Dip Galvanizing, Metallurgical and Materials Transactions A 1997, 28 A, 2695-2703.10.1007/s11661-997-0026-5Search in Google Scholar

39. Jordan C. E., Marder A. R., Fe-Zn phase formation in interstitial-free steels hot-dip galvanized at 450 °C (Part I 0,00 wt % Al-Zn baths), Journal of Materials Science 1997, 32, 5593-5602.10.1023/A:1018680625668Search in Google Scholar

40. Jordan C. E., Marder, A. R., Fe - Zn phase formation in interstitial-free steels hot-dip galvanized at 450 °C (Part II 0,20 wt % Al-Zn baths), Journal of Materials Science 1997, 32, 5603-5610.10.1023/A:1018632709739Search in Google Scholar

41. Chen Y., Zhu Y., Peng H., Ya L., Su X., Wang J., Infl uence of phosphorus on the growth of Fe - Zn intermetallic compound in Zn/Fe diffusion couples, Surface and Coatings Technology 2014, 240, 63-69.10.1016/j.surfcoat.2013.12.013Search in Google Scholar

42. Nishimoto A., Inagaki J., Nakaoka K., Effects of surface microstructure and chemical compositions of steels on formation of Fe-Zn compounds during continuous galvanizing, Transactions ISIJ 1986, 26, 807-813.10.2355/isijinternational1966.26.807Search in Google Scholar

43. Sepper S., Peetsalu P., Saarna M., Methods for evaluating the appearance of hot dip galvanized coatings, Argonomy Research 2011, 1, 229-236.Search in Google Scholar

44. Schulz W. D., Thiele M., Feueverzinken von Stückgut, Eugen G. Leuze Verlag, 2008.Search in Google Scholar

45. Sergi G., Short N. R., Page C. L., Corrosion of galvanized and galvanealed steel in solutions of pH 9.0 to 14.0, Corrosion 1985, 41 (11), 618-624.10.5006/1.3582994Search in Google Scholar

46. Pokorný P., Dobiáš D., Vokáč M., Kouřil M., Kubásek J., Zhodnocení vlivu koroze žárově zinkované oceli na soudržnost hladkých prutů s betonem třídy „NSC“, Koroze a ochrana materiálu 2015, 59 (2), 53-65. 10.1515/kom-2015-0014Search in Google Scholar

47. Maahn E., Sorensen B., The Infl uence of microstructure on the corrosion properties of hot-dip galvanized reinforcement in concrete, Corrosion 1986, 42 (4), 187-196.10.5006/1.3585996Search in Google Scholar

48. Bird C. E., The influence of minor constituents in portland cement on the behaviour of galvanized steel in concrete, Corrosion Prevention and Control 1964, 17-21.Search in Google Scholar

49. Swamy R. N., Corrosion behaviour of zinc alloy coated steel in hardened cement pastes, Proceedings of international conference: Corrosion and corrosion protection of steel in concrete, Sheffi eld Academic Press, 1994, 1287-1298.Search in Google Scholar

50. Santos P., Influencia de la estructura metalográfi ca y del tipo de cemento en la corrosion de armaduras galvanizadas, 1986, Universidad Autónoma de Madrid.Search in Google Scholar

51. Short N. R., Zhou S., Dennis J. K., Electrochemical studies on the corrosion of a range of zinc alloy coated steel in alkaline solutions, Surface and Coating Technology 1996, 79, 218-224.10.1016/0257-8972(95)02428-XSearch in Google Scholar

52. Borgmann C. W., Evans U. R., The corrosion of zinc in chloride solutions, Transactions of Electrochemical Society 1933, 65, 249-275.10.1149/1.3498027Search in Google Scholar

53. Lee H. H., Hiam D., Corrosion resistance of galvannealed steel, Corrosion 1989, 45 (10), 852-856.10.5006/1.3584993Search in Google Scholar

54. Ramanauskas R., Juškenas R., Kaliničenko A., Garfi as- Mesias L. F., Microstructure and corrosion resistance of electrodeposited zinc alloy coatings, Journal of Solid State Electrochemistry 2004, 8, 416-421.10.1007/s10008-003-0444-2Search in Google Scholar

55. Lawrence L. F., Nowak E. T., Paintability performance of metallic coated steels, Proceedings of the 2nd Automotive Corrosion Prevention Conference, 1983, Society of Automotive Engineers, Warrendale, 99-113.Search in Google Scholar

56. Yadav A. P., Katayama H., Noda K., Masuda H., Nishikata A., Tsuru T., Effect of Fe-Zn alloy layer on the corrosion resistance of galvanized steel in chloride containing environments, Corrosion Science 2007, 49, 3716-3731.10.1016/j.corsci.2007.03.039Search in Google Scholar

57. Tan Z. Q., Hansson C. M., Effect of surface condition on the initial corrosion of galvanized reinforcing steel embedded in concrete, Corrosion Science 2008, 50, 2512-2522.10.1016/j.corsci.2008.06.035Search in Google Scholar

58. Sistonen E., Cwirzen A., Puttonen J., Corrosion mechanism of hot-dip galvanised reinforcement bar in cracked concrete, Corrosion Science 2008, 50, 3416-3428.10.1016/j.corsci.2008.08.050Search in Google Scholar

59. Andrade C., Macias A., Galvanized reinforcement in concrete, Surface Coatings - 2 (Edited by Wilson, A. D., Nicholson, J. W., Prosser, H. J.), 1988, Elsevier Applied Science Publishers Ltd., 137-182.10.1007/978-94-009-1351-6_5Search in Google Scholar

60. Sistonen E., Service life of hot dip galvanized reinforcement bars in carbonated and chloride contaminated concrete, Dissertation Thesis - Structural Enginnering and Building Technology, Helsinki University of Technology.Search in Google Scholar

61. Bellezze T., Malavolta M., Quaranta A., Ruffi ni N., Roventi G.; Corrosion behaviour in concrete of tree differently galvanized steel bars, Cement and Concrete Composites 2006, 28, 246-255. Search in Google Scholar