The assessment of the impact of corrosion of galvanised steel on bond strength of plain bars with “NSC” concrete

1. Tonini, D.E.; et al. Chloride corrosion of steel in concrete, American Society for Testing and Materials, Baltimore 1977, str. 17.10.1520/STP629-EBSearch in Google Scholar

2. Pytlík, P.; Technologie betonu, 1^st ed.; Vysoké učení technické v Brně, Brno 2000, str. 178.Search in Google Scholar

3. Collepardi, M.; Moderní beton, 1^st ed.; ČKAIT, Pelhřimov 2009, str. 117.Search in Google Scholar

4. Bertolini, L.; et al. Corrosion of Steel in Concrete (Prevention, Diagnosis, Repair), WILEY-VCH Verlag GmBH and Co. KGaA, Weinheim 2004, str. 26.Search in Google Scholar

5. Böhni, H.; et al. Corrosion in reinforced concrete structures, 1^st ed.; Woodhead Publishing Ltd. and CRC Press LLC: Woodhead Publishing Ltd, 2005, str 81.Search in Google Scholar

6. Novák, P.; et al. Koroze ocelové výztuže v betonu, Koroze a ochrana materiálu, 1996, 40 (1), 2–7.Search in Google Scholar

7. Kouřil, M.; et al. Korozivzdorné oceli pro výztuže betonu, Koroze a ochrana materiálu2002, 46 (3), 62–67.Search in Google Scholar

8. Pokorný, P.; Předpokládaná účinnost konverzních povlaků proti aktivaci zinkované oceli v modelových pórových roztocích betonu, Koroze a ochrana materiálu2013, 57 (4), 115-126.Search in Google Scholar

9. Yeomans, S. R. Galvanized steel reinforcement in concrete, 2^nd ed.; Elsevier, Canberra 2004, str 72.10.1016/B978-008044511-3/50016-5Search in Google Scholar

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

11. Fratesi, R.; Galvanized reinforcing steel bars in concrete, COST 521 Workshop, Luxembourg 2002.Search in Google Scholar

12. Page, C.L.; et al. Corrosion behavior of zinc coated steel in silica fume concrete, Corrosion Conference Trondheim, 1989, 887-896Search in Google Scholar

13. Bautista, A., Gonzales, J.A. Analysis of the protective efficiency of galvanizing agains corrosion of reinforcements embedded in chloride contaminated concrete. Cement and Concrete Reaserch1996, 26 (2), 215–223.10.1016/0008-8846(95)00215-4Search in Google Scholar

14. 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.Search in Google Scholar

15. 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

16. Assaad, J. J.; et al. Bond stregth of epoxy-coated bars in underwater concrete, Construction and Building Materials2011, 30, 667–674.Search in Google Scholar

17. Cusens, A.; et al. Pullout Tests of Epoxy-Coated Reinforcement in Concrete, Cement & Concrete Composites,1992, 14, 269–276.Search in Google Scholar

18. Swamy, R.; Epoxy coated rebars-The panacea for steel corrosion in concrete. Construction & Building Materials1989, 3 (2), 86–91.10.1016/S0950-0618(89)80006-6Search in Google Scholar

19. Pokorný, P.; et al. Faktory ovlivňující soudržnost povlakované výztuže s betonem, TriboTechnika2014, 2, 80-82.Search in Google Scholar

20. Kouřil, M. Soudržnost zinkované oceli s betonem. Koroze a ochrana materiálu2007, 51 (4), 80–83.Search in Google Scholar

21. Pokorný, P.; Vliv koroze zinkované oceli na soudržnost s betonem, Koroze a ochrana materiálu2012, 56 (4), 119-135.10.2478/v10227-011-0020-9Search in Google Scholar

22. Bartoníček, R.; Koroze a protikorozní ochrana kovů 1^st ed.; Academia – nakladatelství Československé akademie věd, Praha 1966.Search in Google Scholar

23. Zhang, X.; Corrosion and electrochemistry of zinc; Plenum Press: New York, 1996.10.1007/978-1-4757-9877-7Search in Google Scholar

24. Macías, A.; Andrade, C.; Corrosion of galvanized steel in dilute Ca(OH)2 solutions (pH 11,1 - 12,6), British Corrosion Journal1987, 22 (3), 162–171.10.1179/000705987798271505Search in Google Scholar

25. Macias, A., Andrade C.; Corrosion of galvanized steel reinforcements in alkaline solutions.(Part 1: Electrochemical results) British Corrosion Journal1987, 22 (2).10.1179/000705987798271631Search in Google Scholar

26. Macias, A., Andrade C.; Corrosion of galvanized steel reinforcements in alkaline solutions.(Part 2: SEM study and identification of corrosion products) British Corrosion Journal1987, 22 (2).10.1179/000705987798271749Search in Google Scholar

27. Blanco, M. T. Macias, A., Andrade C.; SEM study of the corrosion products of galvanized reinforcements immersed in solutions in the pH range 12,6-13,6 British Corrosion Journal1984, 19 (1).10.1179/000705984798273524Search in Google Scholar

28. Macias, A. Andrade C.; Galvanized steel behaviour in Ca(OH)₂ saturated solution containing SO₄ ions. Cement and Concrete Reaserch1987, 17, 307–316.Search in Google Scholar

29. Porter, F.C.; Corrosion resistance of zinc and zinc alloys, 1^st ed., Marcel Dekkler, USA – North Carolina 1994.10.1201/9781482293524Search in Google Scholar

30. Macias, A.; Equilibria of the chemical composition of the concrete pore solutions. Part I. Comparative study of synthetic and extracted solutions. 1987, 17 (2), 173–182.Search in Google Scholar

31. Macias, A.; Andrade C. Stability of the calcium hydroxyzincate protective layer developed on galvanized reinforcements after a further increase of the pH value. 1986, 36 (204), 19–28.Search in Google Scholar

32. Macias, A.; The behaviour of galvanized steel in chloridecontaining alkaline solutions-I. The influence of the cation. 1990, 30 (4/5), 393–407.Search in Google Scholar

33. Wienerová, K.; et al. Koroze a ochrana zinkované oceli v prostředí betonu, Koroze a ochrana materiálu2010, 54 (4), 148-154.Search in Google Scholar

34. Pokorný, P.; Použití žárově zinkované výztuže betonu, Strojárstvo/Strojírenství2014, 6, 100-101.Search in Google Scholar

35. Short, N.R.; et al. Electrochemical studies on the corrosion of range of zinc alloy coated steel in alkaline solutions, Surface & Coating Technology 1996, 79, 218-224.Search in Google Scholar

36. Olmo, I.; et al. Influence of lead, zinc iron (III) and chromium (III) oxides on the setting time and strength development of Portland cement, Cement and Concrete Research2001, 31, 1213–1219.Search in Google Scholar

37. Takahashi, H.; et al. Hardening property of cement mortar adding heavy metal compound and solubility of heavy metal from hardened mortar. Cement and Concrete Research1977, 7, 283–290.Search in Google Scholar

38. Asavapisit, S.; et al. Solution chemistry during cement hydratation in the presence of metal hydroxides wastes. Cement and Concrete Research1997, 27 (8), 1249–1260.10.1016/S0008-8846(97)00109-9Search in Google Scholar

39. Arliguie, G.; et al. Etude de l′effet retardateur du zinc sur l′hydratation de la paste de ciment portland. Cement and Concrete Research1982, 12, 79–86.Search in Google Scholar

40. Rovnaníková, P. Problémy spojené s použitím pozinkované výztuže do betonu. Koroze a ochrana materiálu2002, 46 (5), 104–107.Search in Google Scholar

41. Belaid, F.; et al. Porous structure of the ITZ around galvanized and ordinary steel reinforcements, Cement and Concrete Research2001, 31, 1561–1566.Search in Google Scholar

42. Rovnaníková P., Bayer P.; Mikrostruktura cementového tmelu v okolí pozinkované výztuže, 9. konference žárového zinkování; Ed.; 2003; pp 57–62.Search in Google Scholar

43. ČSN 73 1328. Stanovení soudržnosti oceli s betonem. Praha: Český normalizační institut, 1971. 11 p.Search in Google Scholar

44. ČSN 73 1333. Zkoušení soudržnosti předpínací výztuže s betonem. Praha: Český normalizační institut, 1990. 15 p.Search in Google Scholar

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

46. Kuklík, V.; Vybrané příklady vad povlaků žárového zinku, TriboTechnika2013, 6, 52-54.Search in Google Scholar

47. http://www.galvanizeit.org/hot-dip-galvanizing/how-longdoes-hdg-last/in-concrete (cit. 2.7. 2015).10.1016/B978-0-08-100753-2.00002-1Search in Google Scholar

48. http://www.galvanizeit.org/uploads/publications/Performance_of_Galvanized_Steel_Products.pdf (cit. 2. 7. 2015)Search in Google Scholar

49. http://www.galvanizedrebar.com/Documents/Publication/Specifiers%20Guide%20To%20Rebar%200504.pdf (cit. 2. 7. 2015).Search in Google Scholar

50. Bowsher B.; et al. Corrosion protection of reinforcing steels – Technical report fib – Bulletin 49, IFSC, Lousanne 2009.Search in Google Scholar

51. Pokorný, P.; Kritická diskuze k vlivu přídavku chemických látek do cementu na korozní chování zinkované oceli, Koroze a ochrana materiálu2014, 58 (1), 31-35.Search in Google Scholar

52. Andrade C.; et al. Protection systems for reinforcement, Bulletin D′Information N° 211, Comite Euro-International du Beton, Lausanne 1992.Search in Google Scholar

53. ČSN EN 12390-2. Zkoušení ztvrdlého betonu – Část 2: Výroba a ošetřování zkušebních těles pro zkoušky pevnosti.Search in Google Scholar

54. ČSN EN 12390-3. Zkoušení ztvrdlého betonu – Část 3: Pevnost v tlaku zkušebních těles.Search in Google Scholar

55. ČSN EN 12390-7. Zkoušení ztvrdlého betonu - Část 7: Objemová hmotnost ztvrdlého betonuSearch in Google Scholar

56. ČSN EN ISO 1461. Žárové povlaky zinku nanášené ponorem na železných a ocelových výrobcích – Specifikace a zkušební metodySearch in Google Scholar

57. Pokorný, P.; et al. Description of structure of Fe–Zn intermetalic compounds present in hot-dip galvanized coatings on steel, Metalurgija2015, 4, 707–710.Search in Google Scholar

58. Brown, P. J.; The structure of the ζ - phase in the transicion metal – zinc alloy systems, Acta Crystallographica1962, 15, 608.10.1107/S0365110X62001528Search in Google Scholar

59. Gellings, P.J., de Bree, E.W., Gierman, G.; Synthesis and Characterization of Homogeneous Intermetallic Fe-Zn Compounds, Part 2., International Journal of Materials Research1979, 70 (5), 315-31710.1515/ijmr-1979-700507Search in Google Scholar

60. Sergi, G.; et al. Corrosion of galvanized and galvannealed steel in solutions of pH 9,0-14,0. National Association of Corrosion Engineers (Presented during Corrosion/85) 1985, 618–624.10.5006/1.3582994Search in Google Scholar

61. Swamy, R.N.; et. al. Corrosion behaviour of zinc alloy coated steel in hardened cement pastes, Proceedings of international conference held at the University of Sheffield: Corrosion and Corrosion protection of steel in concrete, Shefield Academic Press, 1994, 1287-1298.Search in Google Scholar

62. Kučera, V.; et al. Kinetika dějů řídících korozi zinkované oceli v betonu (Laboratorní projekt I), VŠCHT 2015, 26 p.Search in Google Scholar