Vector Corrosion Blog
Cathodic Protection & Concrete Corrosion PreventionFebruary 12th, 2020 in Cathodic Protection
For many engineers and owners facing rising costs and disruption due to maintenance and concrete corrosion repair, there is a financial incentive to preserve and extend the life of existing concrete structures from future corrosion damage.
Preserving large concrete structures such as bridges, parking garages, and marine piers is also a sustainable practice with environmental and public benefits.
A major contributor to concrete deterioration is corrosion of embedded metals. In particular, corrosion of reinforcing steel, corrosion of epoxy coated steel, and corrosion of prestressed concrete when unchecked can eventually lead to major rehabilitation costs or structure replacement.
Cathodic protection is a proven solution to make new and existing structures last longer. Concrete repair alone is not a long–term solution when corrosion is the source of the deterioration. After repairing corrosion–induced spalls and delaminations, there will likely still be chloride–contaminated concrete surrounding the rebar in areas adjacent to the chloride–free patch repair. Unfortunately, this situation can lead to the initiation of secondary corrosion sites in areas around the repair.
To provide a longer–term solution, there are various cathodic protection methods available. All of the systems are similar in that they deliver a protective current to the reinforcing steel but have different advantages and uses.
Impressed Current Cathodic Protection
Impressed current cathodic protection (ICCP) systems are designed by qualified and experienced National Association of Corrosion Engineers (NACE) CP4 Cathodic Protection Specialists or The Institute of Corrosion (ICorr) CP Level 3 Senior Cathodic Protection Engineer.
ICCP systems consist of permanent inert galvanic anodes, such as MMO titanium mesh and ribbon, conductive ceramics or conductive coatings and an external DC power source to supply sufficient current is delivered to the steel to overcome the natural concrete corrosion activity.
Galvanic Corrosion Protection
Galvanic protection systems utilize galvanic anodes which are metals with sufficient voltage difference with respect to the corroding steel that protective current will be discharged from the anode though the environment to the corroding structure.
Typically, in concrete repair or concrete restoration applications, various types of zinc anodes are used. As the zinc anode corrodes, it generates an electrical current to mitigate corrosion of the reinforcing steel.
Distributed anode systems for concrete corrosion control generally consist of galvanic anode(s) that are placed over a wide area. Examples of distributed galvanic systems include zinc metalizing and expanded zinc mesh.
Discrete anodes are individually tied onto exposed reinforcing steel or installed into existing concrete by drilling or coring holes on a grid pattern.
Embedded Galvanic Anodes
ACI’s Repair Application Procedure (RAP) 8 Installation of Embedded Galvanic Anodes uses the following nomenclature to define different types of anodes.
Type 1 – Tied to Exposed Steel in Concrete Repairs Type 2 – Installed into Drilled Holes in Sound Concrete Type A – Alkali–activated (high pH) Type H – Halide salt activated such as chloride or bromide
So, for example of Type 1A embedded anode is an alkali–activated anode used in concrete repair to mitigate new corrosion due to patch accelerated or ring anode (halo effect) corrosion.
Galvanic anodes are also used to provide protection of concrete and steel piles in a marine environment.
Concrete and steel piles in the marine environment are subject to serious corrosion deterioration. For marine pile protection, galvanic jacket systems are used to provide galvanic cathodic protection for prestressed concrete, conventionally reinforced concrete and steel piles and columns. Galvanic jackets can consist of zinc mesh anodes, distributed alkali–activated anodes and more recently distributed zinc anodes in wicking fabric for direct seawater wetting of the zinc inside the concrete jacket.
Fusion anodes are a hybrid system that combines the power of impressed current cathodic protection with the maintenance–free performance of galvanic anodes.
Fusion anodes work with two–phase protection whereby Phase 1 delivers an intense burst of electrical current to strikes the reinforcing steel and passivates rebar corrosion similar to an electrochemical treatment or ICCP system. Then Phase 2 utilizes embedded galvanic anodes to shield the structure from future corrosion damage (cathodic prevention). This system can provide a high level of long–term maintenance–free protection.
There is a range of cathodic protection options available to protect new and existing concrete structures. Each system can provide different levels of corrosion protection and cost. An understanding of the capabilities and limitations allows the engineer and owner to implement the best system for their individual concrete preservation objective.