Abstract: A method for forming coating films which can provide coating films having good surface appearance and being excellent in such properties as impact resistance, adhesion to the substrate article, flexibility and chemical resistance, said method comprising coating a powdery composition of a thermoplastic resin having 0.5 to 3.5 polymerizable unsaturated bonds per 1000 of the molecular weight on an article to be coated, heat-melting the powdery resinous composition, and curing the molten film under application of ionizing radiation or ultraviolet radiation.
Abstract: Small workpieces to be coated with plastic material are preheated and dropped onto a fluidized bed of plastic powder subjected to compound vibratory motion which causes the powder and the workpieces to move along a helical ramp onto a screen overlying the point of entry, with some of the particles fusing onto the workpiece surfaces to form a film. The remainder of the powder, on reaching the screen, drops back onto the bed as the coated workpieces move on to a receptable. Fresh workpieces are deposited on the bed through one or more chutes traversing the screen; to prevent the rise of any particles through the chutes, a downward airflow is created therein.
Abstract: A method of coating the glass envelope of a photoflash lamp with a thermoplastic material, the method comprising: preheating the glass envelope at a predetermined temperature for approximately one minute; immersing the heated envelope into a fluidized bed of powdered thermoplastic material from 1 to 5 seconds; removing the coated lamp from the fluidized bed; and postheating the coated envelope at a predetermined temperature for about 1 minute. To assist in preventing inadvertent flashing during these steps, the lamp can be held by a heat sink structure gripping the ignition leads or primer tube.
Type:
Grant
Filed:
June 24, 1974
Date of Patent:
May 25, 1976
Assignee:
GTE Sylvania Incorporated
Inventors:
Thomas J. Sentementes, Eugene A. Castello, Richard Coppola
Abstract: An ionizing electrode for the generation of a corona discharge in an electrostatic dust-collecting precipitator comprising an elongated metallic body provided with spaced-apart pointed tips, and a layer of nylon-11 material covering the body and having a thickness of 100 to 300 microns, preferably 150 to 250 microns. The electrostatic precipitator has an operating temperature of at most 140.degree. and preferably less than 120.degree.C.
Abstract: Coatings having a matt finish are made by applying a powder varnish composition to a substrate and thereafter reacting the varnish at a temperature of 100.degree. to 240.degree.C to form the matt finish coating. The powder varnish composition is a finely divided, particulate mixture ofI. a 1,2-epoxy compound having a melting point greater than 40.degree.C and containing at least one 1,2-epoxy group; andIi. a salt of a polycarboxylic acid (such as pyromellitic acid) containing three or more carboxyl groups and a cyclic amidine (such as 2-phenylimidazoline).
Type:
Grant
Filed:
May 15, 1974
Date of Patent:
March 30, 1976
Assignee:
Veba-Chemie Aktiengesellschaft
Inventors:
Felix Schulde, Johann Obendorf, Kurt Neubold, Gunter Dormann
Abstract: A glass article is decorated with a thermoplastic ink which contains no frit. A finely divided heat fusible polymeric coating material is applied to the article over the ink. The article is heated to a temperature at which the particles of coating material fuse to form a smooth continuous film over the ink while the latter is in melted, semi-liquid condition. The melted ink diffuses into (but not through) the polymer film over it, thereby forming a melt-melt bond. The polymeric film imparts a serviceability to the ink which it would not otherwise display.
Abstract: A glass decorating color is applied to a glass article but is not bonded permanently to the glass. A finely divided heat settable plastic material is applied to the article over the impermanently bonded color and onto glass surface areas beyond the area covered by the color. Heat setting of the plastic material, even though insufficient to permanently bond the color itself to the glass, forms a smooth plastic film over the decoration and fixes the color with respect to the glass surface.
Abstract: Objects are coated using apparatus which includes a mechanical barrier effectively interposed between a cloud of particles which is produced thereby, and the travel path for objects conveyed therethrough. The barrier means includes an upstanding baffle having an edge portion configured to progressively expose different vertical portions of the object as it is conveyed thereby. Generally, at the beginning of the travel path the lower portions of the objects will be masked by the baffle so as to promote deposition of the particles upon the upper surfaces initially. As it proceeds along the travel path, progressive exposure of the lower portions of the object will permit the complete and uniform coating thereof.
Abstract: A coated article is provided which comprises a metal substrate and an overlying layer of a composition comprising a copolymer of 3,3,3-trifluoro-2-trifluoromethyl propene and vinylidene fluoride and an effective amount of a stabilizing agent. More particularly, the stabilizing agent is present in an amount of at least about 0.2 percent by weight based upon the weight of the copolymer and is selected from the group consisting of the oxides and salts of divalent meatls and mixtures thereof. Preferably, the thickness of the coating on the metal substrate is at least about 1 mil.
Abstract: A fused resin coating is formed on a yarn fabric by impregnating the fabric with a liquid plasticizer for the resin and then coating the impregnated fabric with solid resin powder. The resin-coated fabric then is heated to fuse the resin. The coated fabrics obtained are more flexible and have better strength characteristics than fabrics coated with a resin plastisol composition.
Type:
Grant
Filed:
December 6, 1972
Date of Patent:
January 20, 1976
Assignee:
Tillotson Corporation
Inventors:
Neil E. Tillotson, Sebastian A. Consoli