Electrolysis: processes – compositions used therein – and methods – Electrolytic material treatment – Metal or metal alloy
Reexamination Certificate
2000-08-09
2001-12-25
Bell, Bruce F. (Department: 1741)
Electrolysis: processes, compositions used therein, and methods
Electrolytic material treatment
Metal or metal alloy
C204S196210, C204S196360, C204S196370
Reexamination Certificate
active
06332971
ABSTRACT:
The invention relates to the electrochemical treatment of reinforced concrete and in particular to the protection of metal reinforcement in concrete, typically steel reinforcing bars, often called “rebars”. It is well known that such rebars can suffer from corrosion, e.g. because of the presence of chloride salts or because of carbonation of the concrete. Cathodic protection is one way of protection against such corrosion or re-establishing the passivated layer on corroded rebar and involves passing a low voltage electrical current between the reinforcing bars as cathode and an electrode as anode. The anode may be permanent or sacrificial. Such a procedure tends to maintain the passivated coating on the rebar.
It has been realised that the current produces acid and gases at the anode. In traditional systems where the current density is low to control the acid generation, the gases can diffuse through the pores of the concrete to the atmosphere. However at higher current densities, often used in the application of “discrete” or “point” anodes where the gas generation is significantly higher from a small volume, then special anode designs are recommended.
In our EP-A-0186334 there is described and claimed a cathodic protection system in which an anode made of porous titanium suboxide is used. In our GB-A-2309978 we have described and claimed an electrode which is tubular and made of a porous titanium suboxide, arranged so that gases evolved in the electrochemical reactions can be conveyed away through the hollow electrode. There is however a need to convey gases where the electrode is made of a non-porous material, especially where high current densities are used and a considerable volume of gas is evolved. It is an object of this invention to satisfy this need. It is a further object to carry out the invention with a few electrodes as possible, ideally just one.
According to the invention in one aspect there is provided a method of cathodically protecting a concrete body containing metal reinforcement by applying a current between an electrode and the reinforcement so as to maintain the passivated layer on the reinforcement, the method comprising drilling a hole in the concrete from a surface thereof, the hole being of a cross-sectional shape and size similar to that of the electrode and to a depth to locate the electrode adjacent to, but not in physical contact with the reinforcement, and then filling the hole with gas permeable settable material, including the step of applying a current density at a level which in addition to cathodically protecting the reinforcement will cause the generation of gases, and allowing the gases released near the anode to reach the ambient atmosphere via the gas permeable set material.
According to the invention in another aspect there is provided a concrete structure having metal reinforcement therein, a hole extending from a surface of the concrete body and containing an electrode surrounded by gas permeable material, the electrode being formed of a non-porous material and arranged to carry current at a high current density.
The current density may range up to about 1 A/m
2
or higher if a suitable arrangement is adopted to manage the acid generation, such as a high alkali, low aggregate grout material. Higher current densities allow fewer electrodes to be employed and, subject to acceptable current distribution, the more cost effective the installation will be.
In an extreme case, where the porous material cannot release all the gas evolved at a suitable rate, a preformed duct may be present, extending from near the anode to the surface of the concrete. Preferably the duct comprises a hole cast into the set material used to backfill the hole when the electrode was inserted, or drilled into the concrete adjacent to the electrode to allow gases released in the electrochemical treatment to pass into the channel so provided from the pores in the concrete or the backfill material. The hole is typically 2-5 mm in diameter and extends to the depth of the electrode. If cast, it can be made by inserting a paper tube, such as a drinking straw, into the backfill material before it is set. Alternatively a porous tubular material can be inserted in the backfill material before it is set.
REFERENCES:
patent: 5183694 (1993-02-01), Webb
patent: 6165346 (2000-12-01), Whitmore
patent: 6217742 (2001-04-01), Bennett
patent: 186334 (1986-07-01), None
patent: 2309978 (1997-08-01), None
Database WPI, Section Ch, Week 9012, Derwent Publications Ltd., London, GB; AN 90-088548; XP002090509 & JP 02/043385 A (Permelec Electrode Ltd), Feb. 13, 1990 (see Abstract).
Atraverde Limited
Bell Bruce F.
Caesar Rivise Bernstein Cohen & Pokotilow Ltd.
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