Cathodic protection of steel within a covering material

US 7,226,532 B2
Filed: 10/14/2003
Issued: 06/05/2007
Est. Priority Date: 10/10/2003
Status: Active Grant

First Claim

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1. A method for cathodic protection comprising:

providing steel material;

the steel material having thereon a covering material such that a part of the steel material is at least partly covered by the covering material;

forming a cathodic protection combination by;

providing an anode member defined by an anode body formed of a sacrificial anode material;

arranging the anode member at least partly in contact with the covering material for communication of ions therebetween;

and electrically connecting the anode member and the steel material so that an electrical potential is generated by galvanic action between the sacrificial anode material and the steel material which causes ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the sacrificial anode material of the anode member;

wherein the corrosion of the sacrificial anode material of the anode body acts to form corrosion products where the corrosion products have a greater volume than the sacrificial anode material of the anode body from which the corrosion products were formed thus tending to cause expansion of the anode body,the contact between the anode member and the covering material being such that the expansion tends to breakdown the covering material or the connection between the covering material and the anode member;

and restricting the expansion of the anode body and thus preventing the breakdown caused thereby by providing a reinforcing layer at or adjacent the anode member which applies restraining forces to the anode body.

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Abstract

Cathodic protection of an existing concrete structure, including a steel member at least partly buried, such as steel rebar, in the concrete structure, is provided by embedding anodes into a fresh concrete layer applied over an excavated patch and/or as a covering overlay. The anodes are embedded at spaced positions or as an array in the layer and connected to the rebar. A reinforcing layer is applied to the anode or adjacent the anode to resist expansion of the anode body tending to cause cracking of the concrete caused by the larger volume of the corrosion products relative to the anode material. Pores are provided in the anode body so as to take up the corrosion products. The reinforcing layer can be provided in the actual anode body as a closed surface surrounding the anode material inside or may be provided in the concrete as a layer on top of the anode in an array form at or near the outer surface of the concrete.

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25 Claims

1. A method for cathodic protection comprising:
- providing steel material;
  
  the steel material having thereon a covering material such that a part of the steel material is at least partly covered by the covering material;
  
  forming a cathodic protection combination by;
  
  providing an anode member defined by an anode body formed of a sacrificial anode material;
  
  arranging the anode member at least partly in contact with the covering material for communication of ions therebetween;
  
  and electrically connecting the anode member and the steel material so that an electrical potential is generated by galvanic action between the sacrificial anode material and the steel material which causes ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the sacrificial anode material of the anode member;
  
  wherein the corrosion of the sacrificial anode material of the anode body acts to form corrosion products where the corrosion products have a greater volume than the sacrificial anode material of the anode body from which the corrosion products were formed thus tending to cause expansion of the anode body,the contact between the anode member and the covering material being such that the expansion tends to breakdown the covering material or the connection between the covering material and the anode member;
  
  and restricting the expansion of the anode body and thus preventing the breakdown caused thereby by providing a reinforcing layer at or adjacent the anode member which applies restraining forces to the anode body.

2. A method for cathodic protection comprising:
- providing steel material;
  
  the steel material having thereon a covering material such that a part of the steel material is at least partly covered by the covering material;
  
  forming a cathodic protection combination by;
  
  providing an anode member defined by an anode body formed of a sacrificial anode material;
  
  arranging the anode member at least partly in contact with the covering material for communication of ions therebetween;
  
  and electrically connecting the anode member and the steel material so that an electrical potential is generated by galvanic action between the anode member and the steel material which causes ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the sacrificial anode material of the anode member;
  
  wherein the corrosion of the sacrificial anode material of the anode member acts to form corrosion products where the corrosion products have a greater volume than the sacrificial anode material of the anode member from which the corrosion products were formed thus tending to cause expansion of the anode member,the contact between the anode member and the covering material being such that the expansion tends to breakdown the covering material or the connection between the covering material and the anode member;
  
  and causing restraining forces on the anode member tending to restrict the expansion and the breakdown caused thereby by providing a reinforcing layer at or adjacent the anode member which applies said restraining forces to the anode member;
  
  wherein the sacrificial anode material of the anode body is porous to allow expansion of the corrosion products into the pores;
  
  wherein the reinforcing layer is located in the sacrificial anode material of the anode body at or adjacent an exterior surface thereof.
- View Dependent Claims (3, 4, 5, 7)
- - 3. The method according to claim 2 wherein the reinforcing layer forms an enclosure which surrounds the anode body sufficiently so as to contain the forces within the enclosure.
  - 4. The method according to claim 2 wherein the anode body is formed at least partly of materials which are pressed together to define the pores between pressed surfaces thereof.
  - 5. The method according to claim 2 wherein the anode body includes admixed therewith an enhancement material for co-operating with the sacrificial anode material in enhancing the communication of ions between the covering material and the anode material, which enhancement material is bound into the sacrificial anode material of the solid anode body so as to be carried thereby.
  - 7. The method according to claim 3 wherein the reinforcing layer forms an enclosure which surrounds the anode member sufficiently so as to contain the forces within the enclosure.

6. A method for cathodic protection comprising:
- providing steel material;
  
  the steel material having thereon a covering material such that a part of the steel material is at least partly covered by the covering material;
  
  forming a cathodic protection combination by;
  
  providing an anode member including an anode body formed of a sacrificial anode material and an exterior layer on the anode body of a mortar coating material which is separate from the covering material;
  
  arranging the anode member at least partly in contact with the covering material for communication of ions therebetween;
  
  and electrically connecting the anode member and the steel material so that an electrical potential is generated by galvanic action between the anode member and the steel material which causes ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the sacrificial anode material of the anode member;
  
  wherein the corrosion of the sacrificial anode material of the anode member acts to form corrosion products where the corrosion products have a greater volume than the sacrificial anode material of the anode member from which the corrosion products were formed thus tending to cause expansion of the anode member,the contact between the anode member and the covering material being such that the expansion tends to breakdown the covering material or the connection between the covering material and the anode member;
  
  and causing restraining forces on the anode member tending to restrict the expansion and the breakdown caused thereby by providing a reinforcing layer at or adjacent the anode member which applies said restraining forces to the anode member;
  
  wherein the reinforcing layer is located at or within an exterior surface of the mortar coating material of, the anode member.

8. A method for cathodic protection comprising:
- providing steel material;
  
  the steel material having thereon a covering material such that a part of the steel material is at least partly covered by the covering material;
  
  forming a cathodic protection combination by;
  
  providing an anode member including an anode body formed of a sacrificial anode material;
  
  arranging the anode member embedded within the covering material for communication of ions therebetween;
  
  and electrically connecting the anode member and the steel material so that an electrical potential between the anode member and the steel material causes ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the sacrificial anode material of the anode member;
  
  wherein the corrosion of the sacrificial anode material of the anode member acts to form corrosion products where the corrosion products have a greater volume than the sacrificial anode material of the anode member from which the corrosion products were formed thus tending to cause expansion of the anode member,the contact between the anode member and the covering material being such that the expansion tends to breakdown the covering material or the connection between the covering material and the anode member;
  
  and causing restraining forces on the anode member tending to restrict the expansion and the breakdown caused thereby by providing a reinforcing layer at or adjacent the anode member which applies said restraining forces to the anode member;
  
  wherein the reinforcing layer is located within an exterior surface of the covering material at a location therein spaced from the embedded anode member and from the exterior surface so that the covering material includes positions thereof located between the reinforcing layer and the anode member and between the reinforcing layer and the exterior surface.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The method according to claim 8 wherein the reinforcing layer has openings therein sufficient to allow the covering material, when in an un-set condition, to pass through the openings.
  - 10. The method according to claim 8 wherein the anode member comprises an electrically conductive array which is at least partly formed by said anode material and which is arranged to follow substantially the shape of the exterior surface of the covering material.
  - 11. The method according to claim 10 wherein the covering material is applied as a cladding of an additional layer onto an existing structure with the array being buried within the additional layer and the reinforcing layer being arranged over the array.
  - 12. The method according to claim 11 wherein the existing structure is a column with the array being cylindrical and surrounding the existing column and the reinforcing layer forming a cylindrical layer over the array.
  - 13. The method according to claim 11 wherein the anode member and the reinforcing layer are located within the additional layer of covering material and are maintained spaced from the exterior surface and from the existing column, during setting of the additional layer, by spacer members.
  - 14. The method according to claim 11 wherein the additional layer of covering material is contained during setting in a flexible cylindrical form.

15. An anode member for cathodic protection of steel material in a covering material where at least a part of the steel material is at least partly covered by the covering material, the anode member comprising:
- an anode body at least partly formed from a sacrificial anode material arranged such that an electrical potential is generated by galvanic action between the anode member and the steel material so as to cause ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the anode member;
  
  the anode body being arranged for electrical connection to the steel material;
  
  wherein the corrosion of the anode body acts to form corrosion products where the corrosion products have a greater volume than that part of the anode body from which the corrosion products were formed thus tending to cause expansion of the anode body;
  
  wherein the sacrificial anode material of the anode body is porous to allow expansion of the corrosion products into the pores;
  
  and a reinforcing layer located in the sacrificial anode material at or adjacent an external surface of the anode member so as to cause restraining forces on the anode body tending to restrict the expansion.
- View Dependent Claims (16, 17, 18, 19, 20, 21)
- - 16. The anode member according to claim 15 wherein the reinforcing layer forms an enclosure which surrounds the anode body sufficiently so as to contain the forces within the enclosure.
  - 17. The anode member according to claim 15 wherein the reinforcing layer is a mat having openings therethrough to allow communication of ions within the material through the openings.
  - 18. The anode member according to claim 15 wherein the reinforcing layer has fibrous reinforcement.
  - 19. The anode member according to claim 15 wherein the anode body is porous to allow expansion of the corrosion products into the pores such that the forces provided by the reinforcing layer act to assist in directing the corrosion products into the pores.
  - 20. The anode member according to claim 19 wherein the anode body is formed at least partly of materials which are pressed together to define the pores between pressed surfaces thereof.
  - 21. The anode member according to claim 15 the anode body includes admixed therewith an enhancement material for co-operating with the sacrificial anode material in enhancing the communication of ions between the covering material and the anode material, which enhancement material is bound into the sacrificial anode material of the solid anode member so as to be carried thereby.

22. An anode member for cathodic protection of steel material in a covering material where at least a part of the steel material is at least partly covered by the covering material, the anode member comprising:
- an anode body at least partly formed from a sacrificial anode material arranged such that an electrical potential is generated by galvanic action between the anode member and the steel material so as to cause ions to flow through the covering material tending to inhibit corrosion of the steel material while causing corrosion of the anode member;
  
  the anode body being arranged for electrical connection to the steel material;
  
  wherein the corrosion of the anode body acts to form corrosion products where the corrosion products have a greater volume than that part of the anode body from which the corrosion products were formed thus tending to cause expansion of the anode body;
  
  an exterior layer on the anode body of a mortar coating material;
  
  and a reinforcing layer located at or within an exterior surface of the mortar coating material so as to cause restraining forces on the anode body tending to restrict the expansion.
- View Dependent Claims (23, 24, 25)
- - 23. The anode member according to claim 22 wherein the reinforcing layer forms an enclosure which surrounds the exterior layer sufficiently so as to contain the forces within the enclosure.
  - 24. The anode member according to claim 22 wherein the reinforcing layer is a mat having openings therethrough to allow communication of ions within the material through the openings.
  - 25. The anode member according to claim 22 wherein the reinforcing layer has fibrous reinforcement.

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Current Assignee
David W. Whitmore
Original Assignee
David W. Whitmore
Inventors
Whitmore, David W.
Primary Examiner(s)
Bell; Bruce F.

Application Number

US10/683,108
Publication Number

US 20050077191A1
Time in Patent Office

1,330 Days
Field of Search

205/734, 204/196.36, 204/196.37, 204/196.18, 204/196.19, 204/196.23, 204/196.24, 204/196.25
US Class Current

205/734
CPC Class Codes

C23F 13/16 Electrodes characterised by...

C23F 2201/02 Concrete, e.g. reinforced

Cathodic protection of steel within a covering material

First Claim

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Abstract

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25 Claims

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Cathodic protection of steel within a covering material

First Claim

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Accused Products

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Abstract

23 Citations

25 Claims

Specification

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Solutions

Use Cases

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