Cathodic protection current distribution method and apparatus for corrosion control of reinforcing steel in concrete structures

Inactive Publication Date: 2014-09-11
SAE INC +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

[0011]Since MMO coated anodes are not embedded or contact to concrete, the anodic can be operated at anode current densities higher than 110 mA/m2. The chlorine gas evolved on the anode diffuses away though the porous semi-conductive coating before it tunes to hydro-chloric acid. By utilizing this high current discharge capability of the anode system with the semi-conductive coating, the system facilitates electro-chemical chloride extraction from the chloride contaminated concrete.
[0012]Through the use of a semi-conductive layer covering over the anodes, electrical short circuits can be prevented even though the semi-conductive coating contacts with exposed metals

Problems solved by technology

However, these types of installations add burden to the structure and lead to some durability concerns.
However, when the concrete covers over the reinforcing steel are shallow or congested, such installation procedures are not feasible.
Even if the anodes are somehow installed in the slots or drilled holes, the vicinity of the reinforcing steel near the anodes may cause an electrical short circuit, resulting in malfunction of the cathodic protection s

Method used

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  • Cathodic protection current distribution method and apparatus for corrosion control of reinforcing steel in concrete structures
  • Cathodic protection current distribution method and apparatus for corrosion control of reinforcing steel in concrete structures
  • Cathodic protection current distribution method and apparatus for corrosion control of reinforcing steel in concrete structures

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Example

[0018]This invention relates to protection and corrosion prevention of reinforced concrete structures using mixed-metal-oxide (MMO) coated precious-metal tape anodes. In the preferred embodiments, the anodes are attached to a concrete surface using a non-conductive adhesive and covered with a semi-conductive layer to provide cathodic protection or chloride removal. As such, the bare metal surface of the tape is fixed on the concrete surface using a non-conductive adhesive, such that the MMO-coated metal surface of the tape is exposed.

[0019]The substrate metal tape anode may be composed of titanium, tantalum, zirconium, or niobium. However, the most preferred metals are titanium or titanium alloys because of the corrosion resistance and availability. The tape anode width is preferably over 5 mm, and the thickness is in the range of 0.001 mm to 1 mm, preferably between 0.1 mm to 0.3 mm.

[0020]FIG. 1 is a simplified cross-sectional diagram showing a metal tape anode 1 attached to concre...

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Abstract

Mixed-metal-oxide (MMO) coated precious-metal tape is installed directly on concrete surfaces using an electrically non-conductive adhesive with semi-conductive coating or overlay, thereby obviating the need for slots or holes to the concrete structures which are not subject to direct moisture. The tape anodes may be installed on the concrete surfaces exposing metals without developing an electrical short circuit between the anode and the metals due to the non-conductive adhesive. The semi-conductive layer over the metal tape can distribute the CP current uniformly to the entire concrete surface without developing electrical short circuit. Overall the invention provides for quick and low cost installation on many concrete structures. Interconnections between the tape anodes and bare metal distribution elements may be made with conductive adhesive or spot welding.

Description

FIELD OF THE INVENTION[0001]This invention relates generally to corrosion control in reinforced-concrete structures and, in particular, to mixed-metal-oxide (MMO) coated precious-metal tape and mesh that may be installed directly on concrete surfaces without the need for slots, holes, cementitious grout or concrete.BACKGROUND OF THE INVENTION[0002]Cathodic protection (CP) is a method for controlling corrosion of reinforcing steel, including steel structures in chloride contaminated concrete. Various types of impressed current cathodic protection anodes for reinforced concrete structures have been developed in the past. The anode is one of the most critical components for a cathodic protection system, as it is used to distribute cathodic protection current to the reinforcing steel.[0003]One of the most effective and durable anodes is made of a material which is resistance to corrosion, for example a mixed-metal-oxide (MMO) coated titanium substrate. MMO coated anodes are manufactured...

Claims

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Application Information

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IPC IPC(8): C23F13/16
CPCC23F13/16C04B2111/265C23F2201/02
Inventor FUNAHASHI, MIKISIROLA, B. TODD
Owner SAE INC
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