| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 204489000 | Using bath having designated chemical composition (DCC) | 14 |
| 20140262786 | PHENOLIC ADMIX FOR ELECTRODEPOSITABLE COATING COMPOSITION CONTAINING A CYCLIC GUANIDINE - The present invention is directed to an electrodepositable coating composition comprising a reaction product of an epoxy functional polymer and a cyclic guanidine, and a source of unreacted phenol, wherein the electrodepositable coating composition has a columbic usage of less than 100 coulombs/gram when deposited on a conductive substrate at a current density of ≦1.5 mAmps/cm | 09-18-2014 |
| 20150008125 | ELECTRODEPOSITION COATING COMPOSITION, AND CATALYST FOR ELECTRODEPOSITION COATING COMPOSITION - An object of the present invention is to provide a cationic electrodeposition coating composition which does not contain organic tin compound, and can sustain a superior coating curability under currently used baking conditions. According to the present invention, an electrodeposition coating composition containing a titanium compound (A) and a base resin (B), the titanium compound (A) being a titanium compound having a particular structure, is provided. | 01-08-2015 |
| 204490000 | Resultant coating is solely inorganic | 3 |
| 20120073971 | SELF-ASSEMBLY OF COATINGS UTILIZING SURFACE CHARGE - An apparatus and method for measuring the isoelectric pH for materials deposited on or otherwise affixed onto and in contact with an electrode surface, and a method for utilizing the isoelectric pH to form nanometer thickness, self-assembled layers on the material, are described. Forming such layers utilizing information obtained about the isoelectric pH values of the substrate and the coating is advantageous since the growth of the coating is self-limiting because once the surface charge has been neutralized there is no longer a driving force for the solid electrolyte coating thickness to increase, and uniform coatings without pinhole defects will be produced because a local driving force for assembly will exist if any bare electrode material is exposed to the solution. The present self-assembly procedure, when combined with electrodeposition, may be used to increase the coating thickness. Self-assembly, with or without additional electrodeposition, allows intimate contact between the anode, electrolyte and cathode which is required for successful application to solid-state batteries, as an example. | 03-29-2012 |
| 20130228462 | DENSELY-PACKED FILMS OF LANTHANIDE OXIDE NANOPARTICLES VIA ELECTROPHORETIC DEPOSITION - A method of forming a film of lanthanide oxide nanoparticles. In one embodiment, the method includes the steps of: (a) providing a first substrate with a conducting surface and a second substrate that is positioned apart from the first substrate, (b) applying a voltage between the first substrate and the second substrate, (c) immersing the first and the second substrates in a solution that comprises a plurality of lanthanide oxide nanoparticles suspended in a non-polar solvent or apolar solvent for a first duration of time effective to form a film of lanthanide oxide nanoparticles on the conducting surface of the first substrate, and (d) after the immersing step, removing the first substrate from the solution and exposing the first substrate to air while maintaining the applied voltage for a second duration of time to dry the film of lanthanide oxide nanoparticles formed on the conducting surface of the first substrate. | 09-05-2013 |
| 20150047981 | Method And Device For The Electrophoretic Production Of Sheet-Like Blanks From A Metal Slurry Or Ceramic Slip - The invention makes it possible to produce very thin ceramic blanks as a precursor for ceramic discs, for example for use as faces in wrist watches. On the other hand, the production of metal blanks for use in CAD/CAM machines is possible with the invention. Both methods are based on depositing the material from a slurry or slip by electrophoresis. The essence of the invention is the isolation of the peripheral region of the precipitation electrodes that is produced by a non-conducting frame. This allows the precipitated mass to be easily lifted off from the precipitation electrode. The subsequent sintering with a possibly proceeding machining operation allows precision articles to be produced. | 02-19-2015 |
| 204492000 | Anodic processes only | 1 |
| 204498000 | Bath contains carboxyl group | 1 |
| 20140144778 | METHODS OF COATING AN ELECTRICALLY CONDUCTIVE SUBSTRATE AND RELATED ELECTRODEPOSITABLE COMPOSITIONS - Methods are disclosed in which an electrically conductive substrate is immersed hit electrodepositable composition, the substrate serving as an electrode in an electrical circuit comprising the electrode and a counter-electrode immersed in the composition, a coating being applied onto or over at least a portion of the substrate as electric current is passed between the electrodes. The electrodepositable composition comprises: (a) an aqueous medium; (b) an ionic resin; and (c) solid particles. | 05-29-2014 |
| 204499000 | Cathodic processes only | 5 |
| 204500000 | With heat treatment of coating | 1 |
| 20120145545 | CATHODIC ELECTROCOATING COMPOSITIONS - Disclosed herein are functionalized polymers comprising ethylene and substituted ethylene segments. These functionalized polymers are useful as film forming resins in cathodic electrocoating compositions. Also disclosed herein are aqueous dispersion compositions comprising the functionalized polymers and a process for coating various electrically conductive substrates. | 06-14-2012 |
| 204502000 | Bath contains epoxy or epoxide | 2 |
| 204504000 | And separate crosslinking or curing agent | 2 |
| 204505000 | Isocyanate | 2 |
| 20080308423 | Electrodeposition baths containing a mixture of boron-containing compounds and chlorhexidine - Disclosed is an electrodeposition bath comprising a mixture of (i) at least one boron-containing compounds and (ii) chlorhexidine for controlling the growth of microorganisms in the electrodeposition bath. The combination of (i) and (ii) at a low concentration provides better control of microbes than does either (i) or (ii) at higher concentrations. | 12-18-2008 |
| 20140151230 | COATING COMPOSITION AND METHOD FOR FORMING COATING FILM USING SAME - A cationic electrodeposition coating is provided having excellent covering power (clearance application properties), edge anticorrosion properties, and finish properties. The cationic electrodeposition coating composition comprises a specific amino-group-containing epoxy resin; blocked polyisocyanate obtained by reacting an active hydrogen-containing component containing propylene glycol, and a polyisocyanate compound; and 0.1-20 mass parts of a cationic electrodepositing gelled microparticulate polymer obtained by crosslinking an acrylic copolymer containing hydrolyzable alkoxysilane groups and cationic groups, per a total of 100 mass parts of the solids fraction of the amino-group-containing epoxy resin and the blocked polyisocyanate compound. | 06-05-2014 |
| 204506000 | Bath contains separate crosslinking or curing agent | 2 |
| 20110048948 | CATHODIC ELECTRODEPOSITION COATINGS CONTAINING POLYMETHYLENE UREA - Disclosed is cathodic electrodeposition coating comprising at least one binder, at least one crosslinking agent, at least one bismuth compound comprising a basic bismuth nitrate, and a polymethylene urea. In one embodiment, the basic bismuth nitrate compound comprises is a bismuth subnitrate of the empirical formula 4(BiNO | 03-03-2011 |
| 20140021051 | ELECTRODEPOSITABLE AQUEOUS RESINOUS DISPERSIONS AND LOW GLOSS COATINGS PRODUCED THEREFROM - Disclosed are aqueous resinous dispersions that are electrodepositable and exhibit good anti-settling properties, as well as to their use to produce smooth, low gloss coatings. The aqueous resinous dispersions include an active hydrogen-containing, cationic salt group-containing polymer; a curing agent; and oxidized polyolefin particles. | 01-23-2014 |
| 204507000 | With posttreatment of coating (e.g., heat treatment, washing, drying, etc.) | 2 |
| 20120024703 | COMPOSITIONS USEFUL FOR ELECTROCOATING METAL SUBSTRATES AND ELECTRODEPOSITION PROCESSES USING THE COATINGS - A curable, electrodepositable coating composition is provided, comprising:
| 02-02-2012 |
| 20130306477 | CATIONIC ELECTRODEPOSITABLE COATING COMPOSITIONS CAPABLE OF FORMING LOW GLOSS COATINGS - Disclosed herein are cationic electrodepositable coating compositions that are capable of providing cured coatings of low gloss. | 11-21-2013 |
| 204508000 | Bath contains shading or coloring agent, metal oxide, free metal, or free carbon | 1 |
| 20120006683 | ELECTRODEPOSITION OF DIELECTRIC COATINGS ON SEMICONDUCTIVE SUBSTRATES - A composition for use in electrodeposition includes a resin blend, a coalescing solvent, a catalyst, water, and a highly cross-linked migrogel, wherein at least 20 percent by weight of resin solids in the composition is the highly cross-linked microgel. Another composition for use in electrodeposition includes a surfactant blend, a low ion polyol, phenoxypropanol, a catalyst, water, a flexibilizer, and a highly cross-linked migrogel, wherein at least 20 percent by weight of resin solids in the composition is the highly cross-linked microgel. | 01-12-2012 |
