CATHODIC PROTECTION POLYPROPYLENE GRAPHITE REFERENCE ELECTRODE

Abstract

Disclosed herein is a reference half-cell including a tube including an electron interface made of polypropylene graphite, an electrolyte solution, a metal electrode, and a seal. Alternatively, the reference half-cell may be employed without an electrolyte solution and a seal. The electron interface along the first end of the tube may be either an integrated part of the tube or a component separate from and affixed at its ends to the tube to maintain the electron interface in a stationary position relative to the tube. The use of electrically conductive polypropylene for the electron interface provides a half-cell that has good electrically conductivity and high moisture inhibitiveness and, as a result, has an improved service life.

Description

Claims

1. A reference half-cell comprising: a tube with sidewalls, the tube including an electron interface along a first end and forming a portal neck along a second end;an electrolyte solution, the electrolyte solution being contained by the tube and in contact with the electron interface;a metal electrode including a first and a second end, the metal electrode being immersed into the electrolyte solution at the first end and extending outwardly away from the tube at the second end, the second end of the metal electrode configured to receive a wire lead;a seal, the seal being inserted into the portal neck along the second end of the tube around the metal electrode, the seal being securely retained by the portal forming neck of the tube and the electrode, the seal co-acting with the tube to hold the metal electrode securely to the tube and to keep the first end of the metal electrode immersed in the electrolyte solution and to keep the electrolyte solution contained within the tube;wherein the electron interface along the first end of the tube is either an integrated part of the tube or a component separate from and affixed at its ends to the tube to maintain the electron interface in stationary position relative to the tube;wherein the electron interface is formed from an electrically conductive polypropylene;wherein the electron interface inhibits moisture penetration while enhancing electron migration from a solution containing a metal to be tested for corrosion.

2. The reference half-cell of claim 1: wherein the electrode interface is an integrated part of the tube; andwherein the electrode interface provides a closed end to the first end of the tube.

3. The reference half-cell of claim 2: wherein the sidewalls of the tube are formed from an electrically conductive polypropylene.

4. The reference half-cell of claim 1: wherein the electrode interface is a component separate from and affixed at its ends to the tube; andwherein the electrode interface provides a closed end to the first end of the tube.

5. The reference half-cell of claim 4: wherein the electron interface is affixed at its ends to the tube with an adhesive.

6. The reference half-cell of claim 4: wherein the electron interface is affixed at its ends to the tube by thermal welding.

5. The reference half-cell of claim 4: wherein the sidewalls of the tube are formed from polyvinyl chloride.

6. The reference half-cell of claim 1 wherein the metal electrode is made from copper.

7. The reference half-cell of claim 1 wherein the metal rod is made from a metal selected from the group of metals consisting of silver, zinc, graphite, gold, silver, platinum, titanium and brass.

8. The reference half-cell of claim 1 wherein the electrolyte solution is a copper sulfate pentahydrate (CuSO4) solution.

9. The reference half-cell of claim 1 wherein the insulating seal is made from epoxy or polyvinyl chloride.

10. A method for fabricating a reference half-cell for use in cathodic protection, comprising: obtaining a tube with sidewalls having a portal neck along a first end of the tube,configuring a second end of the tube to include an electron interface either as an integrated part of the tube or as a component separate from and affixed at its ends to the tube;forming the electron interface from an electrically conductive polypropylene;filling the tube with an electrolyte solution, the electrolyte solution being contained by the tube and in contact with the electron interface;immersing a first end of a metal electrode into the electrolyte solution configuring the second end of the metal electrode to receive a wire lead;inserting a seal into the portal neck along the first end of the tube around the metal electrode, the seal being securely retained by the portal forming neck of the tube and the metal electrode, the seal co-acting with the tube to hold the metal electrode securely to the tube and to keep the first end of the metal electrode immersed into the electrolyte solution and to keep the electrolyte solution contained within the tube.

11. The method of claim 10 further comprising: configuring the electron interface of the second end of the tube to be an integrated part of the tube.

12. The method of claim 10 further comprising: configuring the electron interface of the second end of the tube to be a component separate from and affixed at its ends to the tube; andforming the sidewalls from polyvinyl chloride.

13. The method of claim 12, wherein the affixing of the ends of the electron interface to the second end of the tube is by thermal bonding.

14. The method of claim 12, wherein the affixing of the ends of the electron interface to the second end of the tube is by use of an adhesive.

15. A method for cathodic protection comprising: obtaining a reference half-cell, the reference half-cell comprising: a tube with sidewalls, the tube including an electron interface along a first end and forming a portal neck along a second end;an electrolyte solution, the electrolyte solution being contained by the tube and in contact with the electron interface;a metal electrode including a first and a second end, the electrode being immersed into the electrolyte solution at the first end and extending outwardly away from the tube at a second end, the second end of the metal electrode being secured to a wire lead;a seal, the seal being inserted into the portal neck along the second end of the tube around the metal electrode, the seal being securely retained by the portal forming neck of the tube and the electrode, the seal co-acting with the tube to hold the metal electrode securely to the tube and to keep the first end of the metal electrode immersed into the electrolyte solution and to keep the electrolyte solution contained within the tube;wherein the electron interface along the first end of the tube is either an integrated part of the tube or a component separate from and affixed at its ends to the tube to maintain the electron interface in stationary position to the tube;wherein the electron interface is formed from an electrically conductive polypropylene;wherein the electron interface inhibits moisture penetration while enhancing electron migration from a solution containing a metal to be tested for corrosion.coupling the electron interface of the reference half-cell to a solution containing the metal to be tested for corrosion;coupling the wire lead of the reference half-cell to a negative terminal of a volt-meter;coupling the positive terminal of the volt-meter to the metal to be tested.

16. A reference half-cell comprising: a tube with sidewalls, the tube including an electron interface along a first end and forming a portal neck along a second end;a metal electrode including a first and a second end, the metal electrode being inserted into the tube at the first end and extending outwardly away from the tube at the second end, the second end of the metal electrode configured to receive a wire lead;wherein the electron interface along the first end of the tube is either an integrated part of the tube or a component separate from and affixed at its ends to the tube to maintain the electron interface in stationary position relative to the tube;wherein the electron interface is formed from an electrically conductive polypropylene;wherein the electron interface inhibits moisture penetration while enhancing electron migration from a solution containing a metal to be tested for corrosion.

17. The reference half-cell of claim 16: wherein the electrode interface is an integrated part of the tube; andwherein the electrode interface provides a closed end to the first end of the tube.

18. The reference half-cell of claim 17: wherein the sidewalls of the tube are formed from an electrically conductive polypropylene.

19. The reference half-cell of claim 16: wherein the electrode interface is a component separate from and affixed at its ends to the tube; andwherein the electrode interface provides a closed end to the first end of the tube.