CATHODIC PROTECTION OF REINFORCED CONCRETE STRUCTURES

1. CATHODIC PROTECTION OF REINFORCED CONCRETE STRUCTURES Center for Engineering Research Research Institute, KFUPM

2. REINFORCEMENT CORROSION • Passivity • High pH leading to formation of passive layer • Chemical binding of chlorides • Dense and relatively impermeable structure of concrete • Depassivation • Chloride ingress • Carbonation

3. Chloride-induced Reinforcement Corrosion • Due to external chlorides • Due to chloride contamination from the mix constituents

4. Chloride Limits • ACI 318 (0.1 – 0.15%; water soluble) • ACI 224 (0.2%; acid soluble) • BS 8110 (0.4%; total)

5. CARBONATION • Ca(OH)2 + CO2 CaCO3 + H2O • Reduction in pH (up to 8.5)

6. FACTORS AFFECTING CARBONATION • Concrete quality • Concrete cover • Moisture condition • Temperature • Chloride-sulfate contamination

7. PREVENTION THROUGH DESIGN • Cover over reinforcing steel • Water-cement ratio • Cement content • Cement type

8. PROTECTION OF STEEL • Metallic coatings • Non-Metallic coatings • Inhibitors • Electrochemical protection • Cathodic protection • Chloride removal • Realkalization

9. CATHODIC PROTECTION • Sacrificial anode • Impressed current

10. Corrosion cell in concrete

11. Corrosion cell in a repaired concrete

12. Corrosion cell after CP

13. Comparison of CP systems (Merits)

14. Comparison of CP systems (Demerits)

15. Sacrifical Anode System • Anode material • Alloys of Mg, Al, Zn • Anode shapes • Zinc foil (Zinc hydrogel) • Metallized zinc (thermal spray) • Jackets • Zinc capsules or discs encased in mortar

16. Corroded pile in sea

17. Pier with SACP

18. Discrete anode for repaired structure

19. Discrete anode

20. Placement of discrete anodes

21. Mesh anode

22. Placement of anodes

23. Specimens with discrete anodes

24. Specimens with jacket anodes

25. Specimens with mesh anodes

26. Specimens and measurement boxes

27. Sacrificial Anode

28. Impressed Current CP

29. ICCP Anodes • Conductive coating • Sparyed, rolled or brushed over a nibium wire (300 um thickness) • Arc sprayed zinc • Spraying metal on concrete with compressed air (300 -400 um) • Titanium anode mesh • Titanium anode mesh jackets • Titanium ribbon • Discrete anodes • Thermally sprayed titanium

30. Current requirements • Atmospheric zones • 5 to 15 mA/m2 • Under water • 0.2 to 2 mA/m2 • Decreases with time

31. ICCP – Power System • Transformers/Rectifiers • Constant voltage/current system • Stable over long period of time • Solar- or wind-powered units are also used

32. ICCP - Connections • Durable and corrosion resistant • Low-voltage wires • Diameter for minimum voltage drop • Color coded • Multiple connections and cables recommended

33. ICCP Monitoring System • Potential measurements • Embeddable reference electrodes • Ag/AgCl • Mn/MnO2

34. Anode mesh fixed on concrete

35. Conductor bar welded to anode mesh

36. Negative connection to the steel bar

37. Connection of embedded items

38. Reference electrode

39. Installing overlay

40. Finishing operation

41. Anode and steel cage

42. Details of anode

43. Connection of anode ribbon to the titanium conductor bar

44. Steel connection

45. Placement of electrodes and connections to the steel bar

46. Pouring of concrete

47. Chloride Removal

48. CE - Details • Anode • Titanium or steel mesh • Electrolyte • Water or saturated calcium hydroxide solution • Current • 1 to 2 A/m2 • Time • 6 to 10 weeks • Not advisable for prestressed concrete • Impressed/sacrificial anode cathodic protection systems may be used • Side effects – Alkali-silica reaction

49. Re-Alkalization

50. Realkalization - details • Anode • Steel or titanium mesh • Electrolyte • Sodium carbonate solution (1 mole/L) • Current • 1 to 2 A/m2 • Time • Days to weeks • Not advisable for prestressed concrete • Impressed/sacrificial anode cathodic protection systems may be used • Side effects – Alkali-silica reaction