Coating processes – With pretreatment of the base – Etching – swelling – or dissolving out part of the base
Reexamination Certificate
2002-08-22
2004-05-11
Beck, Shrive P. (Department: 1762)
Coating processes
With pretreatment of the base
Etching, swelling, or dissolving out part of the base
C427S337000, C427S340000
Reexamination Certificate
active
06733836
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a composition and a method for removing polymeric coatings from glass container surfaces and the subsequent application of a decorative coating to the cleaned surface.
The composition and process of the present invention find a particular application in the removal of polyethylene coatings applied to glass surfaces.
BACKGROUND OF THE INVENTION
Glass containers such as food jars and bottles for wine and other beverages are manufactured in vast numbers. During the manufacturing process it is common practice for the outer surface of the glass to receive a final coating with a slip agent which results in the glass having a low friction surface, enabling greater ease of handling of the final product.
The slip agent is applied in the form of a coating typically consisting of a polyethylene film which is applied to the glass surface following treatment with a tin oxide primer. Without such a slip coating the surface of the glass is relatively rough with a high coefficient of friction and adjacent surfaces rubbing against one another cling together. This can produce an unacceptable degree of scuffing of a surface, and also causes difficulty with handling large numbers of glass items. Moreover, the scuffed glass surface has an unattractively rough appearance.
Following treatment with the coating, adjacent surfaces glide freely over each other thereby removing the difficulties in handling noted above. The glass, furthermore, has a more attractive scuff free appearance which is generally preferred. The scuffing of the bottles has also been found to have a detrimental effect on the ultimate strength of the bottles. There are therefore many sound reasons for the adoption of the coating process by glass manufacturers.
Unfortunately, a glass surface coated with the aforementioned slip agent becomes unreceptive to further treatment, and it is extremely difficult to form a secure bond between any further transparencies, printing, painting or coating material applied to the glass. This lack of adherence of subsequent coatings applied to the glass effectively limits the decorative finishes which can be applied to the glass which would be commercially acceptable.
For example, bottle transfers or printing would not remain intact on the glass during rough handling and therefore would be rejected as a commercial proposition.
For those wishing to treat glass in such a decorative way it would obviously be advantageous either to be able to remove the coating, or simply to be able to use glass bottles to which no coating have been applied.
This latter route is unfortunately not open to glass decorators as glass manufacturing companies have been most reluctant to produce uncoated glass, principally it is thought because of the difficulties found in handling glass products without the coating. As observed above the uncoated glass items tend to cling to one another. Moreover, the economies of glass manufacture are such that even should such a product be produced, to make the process cost effective very substantial numbers of bottles would have to be produced. For these reasons the use of glass created without a slip coating has been abandoned.
Therefore, attempts have been made to remove the slip coating immediately prior to the application of a decorative finish. Current technology for the removal of the slip coating involves exposing the coated bottles to high temperatures in excess of 5000 C. for lengthy time periods, for example, more than 45 minutes. This process, in spite of the high energy requirements has not been satisfactory, as it does not totally remove the slip coating which results in poor bonding between the glass surface and any subsequently applied decorative coating.
There is proposed in the present invention a composition and method whereby the polymeric coating applied as a slip coating to vitreous surfaces can be chemically removed.
SUMMARY OF THE INVENTION
Therefore, according to a first aspect of the present invention there is provided a method of removing a polyethylene coating from a vitreous surface characterized in that the method comprises the steps of:
i. contacting the vitreous surface with a solution of ammonium bifluoride (NH
4
HF
2
);
ii. rinsing the contacted surface with one or more rinses; and
iii. drying the surface.
The thickness of the polyethylene slip coating applied to most commercial glass bottles is in the range 75-100 &mgr;m. The coating is removed by the process outlined above sufficiently to allow the application of an adherent decorative coating to the surface.
The use of the process provides a number of advantages when compared with the baking off process outlined above. The process is considerably less energy intensive and does not expose the surface to the high and possibly damaging temperatures which are used in the baking off process.
The selection of ammonium bifluoride provides advantages over other potential glass cleaning agents, for example, hydrofluoric acid (H
2
F
2
). Hydrofluoric acid attacks glass surfaces very aggressively, to the extent that it would not be possible to remove the polyethylene coating off a glass surface without additionally dissolving a portion of the article itself. This could possibly be detrimental to the structure and strength of the bottle. It has been found that the surface of the glass is affected only to a limited extent by the solutions used in the process of the present invention. There are further disadvantages to the use of hydrofluoric acid relating to difficulties in handling, storage and waste disposal of the material.
Preferably, the solution of ammonium bifluoride is an aqueous solution, the ammonium bifluoride being present in a concentration of 2-10% weight for weight, and more preferably in the weight range 4 to 8% weight for weight.
Preferably, the solution of ammonium bifluoride is maintained in contact with the surface to be cleaned for a period of 5-60 seconds. Preferably, the ammonium bifluoride solution is maintained at a temperature of between 25 and 500 C.
Typically, following contact with the ammonium bifluoride solution the surface undergoes sufficient rinsing in the rinsing steps to ensure that all of the coating loosened in the contacting step is removed, and that no residue remains. It has been found in practice that film residue and bifluoride solution can be satisfactorily removed with several spray rinses for a period of between 5 and 90 seconds at a pressure of between 20-200 kPa at a flow rate of 1-5 litres of rinse water per bottle per minute (in the case of standard wine bottles). This is followed by a standing period to allow all waste material to drain prior to drying.
The drying stage can be conducted at ambient temperature, and preferably includes a source of high velocity low pressure air.
In a further aspect of the present invention there is provided a method of applying a decorative coating to a vitreous surface comprising the steps of;
i. contacting the vitreous surface with a solution of ammonium bifluoride (NH
4
HF
2
);
ii. rinsing the contacted surface with one or more rinses;
iii. drying the surface;
iv. applying a curable liquid polymerisable coating to the surface; and
v. exposing the coated surface to a catalyst to thereby polymerise the coating material.
The polymerisable coating material is preferably a polyurethane pre-polymer curable at room temperatures.
The pre-polymer coating material can be applied in a single stage as an atomised mixture of the pre-polymer with an appropriate vaporous catalytic amine bearing carrier gas. Alternatively, the pre-polymer coating material can be applied to the surface in a spraying process and subsequently cured by exposing the coated surface to a catalyst bearing vapour in a separate curing stage.
In a particularly preferred embodiment the polyurethane pre-polymer coating is applied in the form of a single component moisture curable liquid prepolymer. The pre-polymer coating may contain, in addition to an isocyanate pre-polymer, other components such as pigments, solvents, and
Beck Shrive P.
Fletcher, III William Phillip
Vandigriff John E.
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