High transfer efficiency application methods and shear thinning coating compositions for application using the methods

1 . A method of forming a coating layer on at least a portion of a substrate comprising: applying an aqueous coating composition to a substrate using a high transfer efficiency applicator; wherein the aqueous coating composition comprises (i) a film-forming polymer or resin, (ii) a polyurethane dispersion; (iii) crosslinked polymer microparticles; (iv) a polymer comprising one or more reactive functional groups; or (v) combinations thereof, wherein, the aqueous coating composition has a viscosity ranging from 7 to 100 Pa*s at a shear stress of 1 Pa when measured using an Anton-Paar MCR301 rheometer equipped with a 50-millimeter parallel plate-plate fixture at 25° C. and a pressure of 101.3 kPa (1 atm) and keeping a plate-plate distance fixed at 0.2 mm. 2 . The method of claim 1 , wherein the aqueous coating composition comprises an aqueous carrier, and/or a rheology modifier and/or a swelling solvent that will swell the film-forming polymer or resin. 3 . (canceled) 4 . (canceled) 5 . The method of claim 1 , wherein the high transfer efficiency applicator comprises a nozzle orifice that expels the aqueous coating composition as a droplet or jet and that exerts a yield stress on the droplets or jets as they are expelled from the nozzle orifice. 6 . The method of claim 1 , wherein the aqueous coating composition has a viscosity ranging from 0.03 to 1 Pa*s, such as 0.1 to 1 Pa*s at a shear stress of 10 Pa when measured as a function of shear stress over a stress range from 0.05 Pa to 500 Pa with a point spacing of 7 points per decade and/or a rheology profile defined as the ratio of the viscosity at a shear stress of 1 Pa to the viscosity at a shear stress of 10 Pa of from 25:1 to 350:1 at 25° C. and a pressure of 101.3 kPa (1 atm), using an Anton-Paar MCR301 rheometer equipped with a 50 millimeter parallel plate-plate fixture with temperature-control and keeping a plate-plate distance fixed at 0.2 mm. 7 . (canceled) 8 . The method of claim 1 , wherein the aqueous coating composition exhibits a yield stress of from 1 to 10 Pa and exhibits a minimum first derivative of the Log 10 of the viscosity versus shear stress ranging from −0.1 to −5.0 mPa*s/mPa and wherein the yield stress of the coating composition is less than the yield stress exerted on the droplet or jet of the coating composition as it is expelled from the nozzle orifice. 9 . The method of claim 1 , wherein the film-forming polymer or resin has at least one crosslinking-functional group and the coating composition further comprises a crosslinking material having at least one functional group reactive with the crosslinking-functional group, and/or wherein the swelling solvent comprises a solvent selected from the group consisting of alkyl ethers, glycol ethers, hydrophobic group containing alcohols, hydrophobic group containing ketones, alkyl esters, alkyl phosphates, and mixtures thereof, and/or wherein the rheology modifier comprises an inorganic thixotropic agent, an acrylic alkali swellable emulsion (ASE), an associative thickener, cellulosic thickener, polyvinyl alcohol, polyvinyl pyrrolidone, polyvinyl methylether, polyethylene oxide, polyacrylamide, ethylene vinyl acetate, polyamide, polyacrylic acid, or mixtures thereof. 10 - 19 . (canceled) 20 . The method of claim 1 , wherein the high transfer efficiency applicator comprises a valve jet applicator having one or more nozzles, each of which expels the aqueous coating composition in the form of a coherent coating composition jet, wherein each nozzle expels the aqueous coating composition to form a jet having the form of a line segment, a planar jet or lamina, a hollow cylindrical jet, or wherein more than one nozzle cooperatively expels the coating composition to form a liquid sheet. 21 . (canceled) 22 . The method as claimed in claim 1 , wherein the aqueous coating composition is a pigmented basecoat coating composition. 23 . The method as claimed in claim 1 , wherein the method comprises applying a primer layer on the substrate prior to applying the aqueous coating composition. 24 . The method of claim 1 , wherein the method further comprises applying, using a high transfer efficiency applicator, a clearcoat coating composition over at least a portion of the aqueous coating composition that has been applied to the substrate. 25 - 29 . (canceled) 30 . A substrate coated by the method as claimed in claim 1 . 31 . The substrate as claimed in claim 30 , wherein the substrate is a vehicle or a portion thereof. 32 . An aqueous coating composition comprising: (i) a film-forming polymer or resin, (ii) a polyurethane dispersion; (iii) crosslinked polymer microparticles; (iv) a polymer comprising one or more reactive functional groups; or (iv) combinations thereof, wherein, the aqueous coating composition has a viscosity ranging from 7 to 100 Pa*s, such as 10 to 100 Pa*s at a shear stress of 1 Pa when measured using an Anton-Paar MCR301 rheometer equipped with a 50-millimeter parallel plate-plate fixture at 25° C. and a pressure of 101.3 kPa (1 atm) and keeping a plate-plate distance fixed at 0.2 mm. 33 . The aqueous coating composition according to claim 32 comprising an aqueous carrier, and/or a rheology modifier, and/or a swelling solvent that will swell the film-forming polymer or resin. 34 - 35 . (canceled) 36 . The aqueous coating composition according to claim 32 , wherein the aqueous coating composition has a viscosity ranging from 0.03 to 1 Pa*s, such as 0.1 to 1 Pa*s at a shear stress of 10 Pa when measured as a function of shear stress over a stress range from 0.05 Pa to 500 Pa with a point spacing of 7 points per decade, and/or a rheology profile defined as the ratio of the viscosity at a shear stress of 1 Pa to the viscosity at a shear stress of 10 Pa of from 25:1 to 350:1, and/or exhibits a yield stress of from 1 to 10 Pa and exhibits a minimum first derivative of the Log 10 of the viscosity versus shear stress ranging from −0.1 to −5.0 mPa*s/mPa at 25° C. and a pressure of 101.3 kPa (1 atm), using an Anton-Paar MCR301 rheometer equipped with a 50 millimeter parallel plate-plate fixture with temperature-control and keeping a plate-plate distance fixed at 0.2 mm. 37 - 38 . (canceled) 39 . The aqueous coating composition according to claim 32 , wherein the film-forming polymer or resin has at least one crosslinking-functional group and the coating composition further comprises a crosslinking material having at least one functional group reactive with the crosslinking-functional group, and/or wherein the swelling solvent comprises a solvent selected from alkyl ethers, glycol ethers, hydrophobic group containing alcohols, hydrophobic group containing ketones, alkyl esters, alkyl phosphates, and mixtures thereof, and/or wherein the rheology modifier comprises an inorganic thixotropic agent, an acrylic alkali swellable emulsion (ASE), an associative thickener, cellulosic thickener, polyvinyl alcohol, polyvinyl pyrrolidone, polyvinyl methylether, polyethylene oxide, polyacrylamide, ethylene vinyl acetate, polyamide, polyacrylic acid, or mixtures thereof. 40 - 46 . (canceled) 47 . The aqueous coating composition according to claim 32 , wherein the rheology modifier comprises a combination of an inorganic thixotropic agent and an ASE. 48 . The aqueous coating composition according to claim 32 , wherein the aqueous coating composition compr