Coating processes – Direct application of electrical – magnetic – wave – or... – Polymerization of coating utilizing direct application of...
Reexamination Certificate
1999-11-24
2002-07-23
Padgett, Marianne L (Department: 1762)
Coating processes
Direct application of electrical, magnetic, wave, or...
Polymerization of coating utilizing direct application of...
C427S494000, C427S493000, C427S544000, C427S558000, C427S559000, C427S377000, C427S393600
Reexamination Certificate
active
06423382
ABSTRACT:
This invention is concerned with a method of coating an uncured mineral substrate. More particularly, though not exclusively, this invention concerns a method of coating an uncured cementitious substrate, such as a concrete roof, floor or wall tile or a concrete house siding, to give the substrate a high gloss finish.
Precast concrete roof tiles are typically produced from a concrete mortar whose consistency is such that it can be molded whilst in its green state into a design having features of shape, configuration, pattern or ornament which it will retain when cured. The tiles are usually formed of a layer or layers of green concrete molded to correspond to the desired surface appearance of the tiles. The tiles may be formed of a single layer of concrete or they may be formed of multiple layers of concrete, for example as disclosed in U.S. Pat. Nos. 4,789,319, 4,986,744 and 5,017,320.
Where a smooth finish on the upper surface of the tile is desired, the tile usually comprises at least two layers, the upper most layer being formed from a green concrete or cementitious slurry, comprising hydraulic cement, fine-grained aggregates, pigments and dispersing agents. This upper most layer has a thickness typically from 0.05 mm to no more than 3 mm and may be applied to the coarser base layer(s), for example, by a process such as described in any of the above US patents or by curtain coating the formed tile.
Concrete roof tiles tend to be susceptible to efflorescence when exposed to atmospheric moisture or precipitation. To suppress efflorescence in concrete roof tiles, it has been common practice to coat the upper side of the cured or uncured concrete roof tiles with an aqueous paint or clear coat composition which, when dry, provides a waterproof coating. Such aqueous paint compositions will typically comprise from 30 to 50% by weight of polymer dispersion, for example an aqueous, acrylate-based polymer dispersion, from 20 to 60% by weight fine inorganic filler, for example chalk, barytes and/or silica, and optionally from 2 to 10% by weight iron oxide pigment. Such aqueous clear coat compositions typically consist essentially of a 100% acrylic dispersion (e.g. 30-50% solids). Coatings formed from such paint and clear coat compositions tend to have a thickness on the tile of no greater than 0.15 mm. Improved efflorescence suppression has been proposed through the use of relatively more complex copolymer dispersions, such as those described in DE-A-4341260 and U.S. Pat. No. 5,215,827, as replacements in whole or in part for the more conventional simple acrylate-based polymer dispersions.
In U.S. Pat. No. 4,177,232 there is disclosed a method of making a concrete roof tile which has improved efflorescence resistance. In this method, a formed tile body is coated with a cementitious slurry and before that slurry layer has cured, an aqueous emulsion of a film forming polymeric material is applied thereto. The fully cured tiles formed by this method exhibit low gloss finishes It is often desirable for a concrete roof tile to exhibit a high gloss finish. A high gloss finish is typically obtained by a process of applying a coating of an aqueous clear coat composition to the uppermost surface of the tile after the tile has been dried and cured in an oven or autoclave, and then drying the coating. Alternatively, a high gloss finish may be obtained by a process of applying a coating of a non-aqueous clear coat composition to the uppermost surface of the tile either before or after the tile has been dried and cured.
It is an object of the present invention to provide a finished mineral substrate, such as a roof tile, which exhibits a high gloss finish but which has been manufactured by a method which either is quicker and potentially more energy efficient than previously known methods employing aqueous coatings or which does not rely upon the use of solvents used in non-aqueous coatings for making the same.
In accordance with the present invention, there is provided a method of coating a mineral substrate with at least one aqueous composition comprising a film forming polymeric binder, which method comprises the following sequential process steps:
i) forming the body of said substrate from an uncured mineral composition, preferably a green concrete or fiber cement;
ii) before drying and curing said body, coating a surface of said body with said at least one aqueous composition by:
a) applying a first coating consisting of an aqueous composition comprising a film forming polymeric binder to said surface,
b) exposing said first coating to hot air or infrared, ultraviolet or microwave radiation for sufficient time for at least the surface of said coating remote from the substrate body to form a film of polymeric binder, and
c) applying a second coating consisting of an aqueous composition comprising a film forming polymeric binder on top of the first coating; and
iii) drying and curing said body and said coatings, for example in an oven or autoclave.
In accordance with a second aspect of the present invention, there is provided a method of improving the gloss finish of a mineral substrate formed by a process comprising the following sequential process steps:
i) forming the body of said substrate from an uncured mineral composition, preferably a green concrete or fiber cement,
ii) before drying and curing said body, coating a surface of said body with said at least one aqueous composition by:
a) applying a first coating consisting of an aqueous composition comprising a film forming polymeric binder to said surface, and
b) exposing said first coating to hot air or infrared, ultraviolet or microwave radiation for sufficient time for at least the surface of said coating remote from the substrate body to form a film of polymeric binder, and
iii) drying and curing said body and said coatings, for example in an oven or autoclave,
wherein after process step ii) b) and before process step iii), a second coating consisting of an aqueous composition comprising a film forming polymeric binder is applied on top of the first coating.
Said second coating may be exposed to hot air or infrared, ultraviolet or microwave radiation before said substrate body and coatings are dried and cured, but it is preferred for the second coating to dry and cure without any such special pre-cure treatment.
Surprisingly, finished mineral substrates coated by the method of the present invention exhibit a high gloss finish which is comparable with finished substrates formed by conventional processes. The method of the present invention enables high gloss finished substrates to be manufactured quicker, and potentially in a more energy efficient manner, than similar finished substrates manufactured by conventional processes using aqueous coatings, where the second coating is applied to the substrate after the substrate body has been dried and cured.
Preferably, drying and curing of the mineral substrate and coatings is effected at a temperature of at least 40
20
C.
The method of the present invention is preferably used to manufacture high gloss finishes on concrete substrates, most preferably on substrates such as concrete pipes, roof tiles, floor tiles, wall tiles and house sidings.
The uncured substrate body may be comprised of at least two superimposed layers of mortars of different compositions and characteristics. For example, such a process and apparatus for performing the process are described in U.S. Pat. No. 5,017,320 and U.S. Pat. No. 4,789,319, respectively. The apparatus disclosed in U.S. Pat. No. 4,986,744 may also be used for the manufacture of such multi-layered bodies. The layer of concrete which comprises the bottom surface of the body can be prepared by mixing a mortar composition to form a green concrete which is then extruded onto a continuous strand of moving bottom molds. Subsequently, if required, one or more other layers of green concrete or cementitious slurry, such as a colour coat, can be extruded or coated onto the first layer to form a multi-layered body of uncured mineral composition.
A surface of th
Bowe Michael Damian
Maxfield John
Padgett Marianne L
Rohm and Haas Company
Stauss Karl
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