Patent application number | Description | Published |
20120301667 | Method and apparatus for coating a complex object and composite comprising the coated object. - Disclosed are coating apparatus and coating methods to uniformly coat complex objects. The coating apparatus comprises first, second and/or third gimbals connected to rotational mechanisms to allow rotation of the gimbals around or about first, second and/or third axis. When three gimbals are used, an object holder is connected to the third gimbal. When an object is present in the object holder, it can be immersed in a coating solution to form a coated object. After removal from the coating solution, the coated object is then rotated around or about two or three axes which produces a multidirectional centrifugal force which causes the coating solution to spread evenly over the surface of the object to produce a uniform thin film. Coating methods based on the forgoing are also disclosed. | 11-29-2012 |
20120301670 | System and Process for Coating an Object - Coating systems and processes are disclosed for uniformly coating objects. The system comprises a pre-treatment unit, a first processing unit, a first post-treatment unit and one or more coating apparatus each configured to engage an object and rotate the object around or about two or more axes. The coating apparatus used in the system can comprise a first, second and/or third gimbals connected to rotational mechanisms to allow rotation of the gimbals around or about first, second and/or third axis. An object holder is connected to the third gimbal. When an object is present in the object holder, it can be immersed in a coating solution to form a coated object. The coated object is then rotated around or about two or three axes which produces a multidirectional centrifugal force which causes the coating solution to spread evenly over the surface of the object to produce a uniform thin film. | 11-29-2012 |
20120301671 | System and Process for Coating an Object - Coating systems and processes are disclosed for uniformly coating objects. The system comprises a pre-treatment unit, a first processing unit, a first post-treatment unit and one or more coating apparatus each configured to engage an object and rotate the object around or about two or more axes. The coating apparatus used in the system can comprise a first, second and/or third gimbals connected to rotational mechanisms to allow rotation of the gimbals around or about first, second and/or third axis. An object holder is connected to the third gimbal. When an object is present in the object holder, it can be immersed in a coating solution to form a coated object. The coated object is then rotated around or about two or three axes which produces a multidirectional centrifugal force which causes the coating solution to spread evenly over the surface of the object to produce a uniform thin film. | 11-29-2012 |
20140004276 | ROLL COATINGS SOL-GEL PRECURSORS | 01-02-2014 |
20140295057 | ANTI-ICING COATING FOR POWER TRANSMISSION LINES - Provided are methods and systems for forming piezoelectric coatings on power line cables using sol-gel materials. A cable may be fed through a container with a sol-gel material having a piezoelectric material to form an uncured layer on the surface of the cable. The layer is then cured using, for example, infrared, ultraviolet, and/or other types of radiation. The cable may be suspended in a coating system such that the uncured layer does not touch any components of the system until the layer is adequately cured. Piezoelectric characteristics of the cured layer may be tested in the system to provide a control feedback. The cured layer, which may be referred to as a piezoelectric coating, causes resistive heating at the outer surface of the cable during vibration of the cable due transmission of alternating currents and environmental factors. | 10-02-2014 |
20140335275 | MODIFIED HYBRID SOL-GEL SOLUTIONS AND COMPOSITIONS FORMED FROM SUCH SOLUTIONS - Provided are modified hybrid sol-gel precursor solutions and coatings formed from such solutions. A modified hybrid sol-gel precursor solution includes an inorganic precursor, cross-linkable inorganic-organic precursor, cross-linkable organic precursor, protic solvent, and aprotic solvent. The inorganic precursor may include a metal or metalloid and two or more hydrolysable groups. The cross-linkable inorganic-organic precursor may include a metal, hydrolysable group, and organic molecule. The cross-linkable organic precursor has another organic molecule with two or more second cross-linking groups. A combination of protic and aprotic solvents in the same solution may be used to control properties of the solutions, thermodynamics, and other processing aspects. The solution may also include nanoparticles. The nanoparticles may include functionalized surface to form covalent bonds with one or more precursors of the solution, such as a plasma treated surface. The nanoparticles may be sized to fit into the sol-gel network without substantially disturbing this network. | 11-13-2014 |