Coating processes – With post-treatment of coating or coating material – Heating or drying
Reexamination Certificate
2001-08-13
2003-09-09
Sellers, Robert E. L. (Department: 1712)
Coating processes
With post-treatment of coating or coating material
Heating or drying
C428S418000, C525S524000, C525S525000, C525S526000, C525S934000
Reexamination Certificate
active
06616979
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a thermosetting epoxy powder coating composition and, more particularly, to an epoxy powder coating composition adapted to prevent bubble entrapment within the coating film formed therefrom during thermal curing at low temperatures.
BACKGROUND OF THE INVENTION
Brass is a widely used material of construction for many articles of commerce. Parts formed from brass generally require a clear coat finish to enhance their luster and appearance and achieve protection against wear or the environment. Solvent-borne liquid coatings have been tried for such purposes, but they fail to deliver the needed performance. Solvent-borne coatings also contain alarmingly high levels of hazardous volatile organic compounds which tend to flash away during curing, making it necessary to contain and collect the vapor of volatile ingredients which is rather costly.
Fusion bonded, thermosetting powder coating compositions have also been used to coat brass parts. Powder coatings offer a number of advantages over liquid coatings. For instance, corrosion and scratch resistance is much superior to that of liquid coatings. In addition, powder coatings are virtually free of the harmful fugitive organic solvents normally present in liquid coatings and, accordingly, give off little, if any, volatiles during curing, which eliminates solvent emission problems and dangers to the health of workers employed in coating operations.
Because brass parts, for example, brass plated zinc die cast parts, are susceptible to outgassing upon heating, thermosetting powder coatings that are capable of curing at low temperatures, e.g., below about 350° F., are generally preferred to minimize substrate outgassing during curing and permanent scarring of the finish coating. Low cure temperatures are also desired, since brass tends to discolor or tarnish at higher temperatures.
Among the commercially available low temperature cure thermosetting powder coatings, GMA acrylic powder coatings have been the most widely used by the brass finishing industry. GMA acrylics offer coatings with exceptional smoothness and clarity, but also suffer from a number of drawbacks including poor adhesion and rather high cost which is becoming increasingly difficult for the brass finishing industry to bear. Attempts have been made to replace the GMA acrylics with traditional thermosetting epoxy powder coatings, such as those based on standard non-crystalline epoxy resins, e.g., bisphenol A type epoxy resins, standard curing agents for epoxy resins, e.g., dicyanodiamide, along with standard catalysts, e.g., 2-methyl imidazole. While epoxies offer improved adhesion and reduced cost, curing of these coatings at the desired low temperature cure conditions, generally leads to bubble entrapment within the finish coating, which is particularly troublesome from an appearance and film quality standpoint.
Bubble entrapment is believed to occur during powder application. In particular, as the powder coating is applied to the substrate, it is believed that air is entrapped within the powder particles as they are deposited on the substrate. When the powder begins to melt, flow and eventually cure, the air must escape from the coating before the finish coating hardens or it will be trapped as tiny bubbles dispersed throughout the coating. With traditional thermosetting epoxy powder coatings, the latter effect tends to occur at the desired low temperature cure conditions, which is believed to be due, at least in part, to the rather high melt viscosities experienced at such temperatures. In a clear coating, those bubbles are especially problematic in that they tend to create an unwanted hazy appearance that interferes with the distinctness of image of the finish coating, i.e., the sharpness of image reflected by a coating's surface. Brass coatings, however, should have a high and visually consistent distinctness of image to enable one to see through the finish coating as if looking at a polished brass part.
What is needed is a thermosetting epoxy powder coating composition adapted to cure at low temperatures below about 350° F. as well as prevent bubble entrapment within the finish coating during heat curing at said low temperatures.
SUMMARY OF THE INVENTION
It is, therefore, a primary object of this invention to provide a thermosetting epoxy powder coating composition that does not suffer from the forgoing drawbacks.
It is another object of this invention to provide a thermosetting epoxy power coating composition adapted to cure at low temperatures as well as prevent bubble entrapment and resultant visible haze within the finish coating during curing at said low temperatures.
It is yet another object of this invention to provide a thermosetting epoxy powder coating composition that has a relatively low viscosity when melted for curing, so that it can readily flow, coalesce and degas at low temperatures before reaching a thermoset state.
It is a further object of this invention to provide a thermosetting epoxy powder coating composition of the aforesaid character that is still melt-processable in an extruder under standard conditions and storage stable at ambient temperatures.
It is a related object of this invention to provide a coated substrate, preferably a clear coated brass substrate, having a thermosetting powder coating composition of the aforesaid character coated and cured thereon while the substrate is at a temperature generally below the substrate outgassing and/or degradation temperature, with the resulting finish coating, remarkably, having little or no bubble entrapment and resultant visible haze therein.
The foregoing objects of the invention are accomplished through an improvement in a low temperature thermosetting epoxy powder coating composition, especially in a clear composition that is essentially free of opaque pigments and fillers. The powder coating composition in accordance with this invention comprises a film-forming particulate blend of a non-crystalline epoxy resin, a curing agent for the epoxy resin, and a cure catalyst. The improvement being that small amounts of a crystalline epoxy resin are included in the composition to improve the low temperature degassing properties of the composition and thus reduce or eliminate bubble entrapment within the coating film formed therefrom upon curing, particularly at the rather low cure temperatures demanded by certain substrates, especially those made of brass, yet without detracting from the ability of the composition to be melt processed and stored in a conventional manner. The thermosetting powder coating composition of this invention is, therefore, useful in providing essentially haze-free coatings on substrates demanding lower cure temperatures, such as brass parts. Our discovery herein that the addition of small amounts of crystalline resin prevents bubble entrapment at low cure temperatures in the above formulation was truly unexpected. There is no indication of this unexpected benefit in the literature. U.S. Pat. No. 5,414,058 (Ono) makes no mention of improvements in powder degassing. Moreover, we are not aware of any prior art relating to blends of non-crystalline and crystalline epoxy resins for use in thermosetting powder coatings which achieve the novel film properties described herein.
In accomplishing the foregoing objects of this invention, there is also provided a method for obtaining an essentially haze-free coating, preferably a clear coating, having little or no optical bubble defects on a substrate surface susceptible to outgassing and/or degradation upon heating at elevated temperatures, preferably on a surface made of brass, comprising applying a low temperature powder coating composition of the aforesaid character on a substrate surface, and curing the powder coating on the substrate at temperatures sufficient to cure the powder coating composition and below the outgassing and/or degradation temperature of the substrate. Also provided by this invention is a substrate susceptible to outgassing and/or degradation upon heating, p
Greth Stacy L.
Ruth William G.
Schreffler Dean A.
Seelig Carryll A.
HIll Gregory M.
Rohm and Haas Company
Sellers Robert E. L.
LandOfFree
Powder coating with non-crystalline and crystalline epoxy... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Powder coating with non-crystalline and crystalline epoxy..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Powder coating with non-crystalline and crystalline epoxy... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3079791