Gauckler
Andreas Manfred Gauckler, Boulder DE
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20130277083 | CONDUCTIVE MESH FOR COMPOSITE TUBE FOR FLUID DELIVERY SYSTEM - An electrically tuned composite tube comprises a tubular arrangement of a knitted reinforcement layer. Selected knitted patterns provide desired density or spacing between fibers of the reinforcement layer. A mesh element is also incorporated in the tube construction to precisely control resistivity and conductivity performance characteristics by selecting the mesh element from one or more conductive or non-conductive fibers or wires. The mesh element may include a tubular arrangement of fiber or wire provided in a knitted pattern or a woven pattern. A matrix material is applied over the knitted reinforcement layer and mesh element, and is allowed to cure for a single matrix layer. Alternatively, a first tube can be constructed with only the knitted reinforcement layer and matrix material, and the mesh element is added afterwards with another layer of matrix material applied over the exterior surface of the first tube. | 10-24-2013 |
20130284303 | REINFORCEMENT METHODS FOR COMPOSITE TUBE FOR FLUID DELIVERY SYSTEM - The composite tube comprises a tubular arrangement of knitted fiber characterized by a plurality of interlocking loops. The tubular knitted pattern allows for variable electrical, mechanical and geometrical tube options. A matrix material is applied over the knitted fiber pattern and is allowed to cure. The matrix material may include a combination of resin and epoxy constituents. | 10-31-2013 |
Ludwig J. Gauckler, Zurich CH
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20090011315 | Thin-Film Composite and a Glass Ceramic Substrate Used in a Miniaturized Electrochemical Device - A composite element comprising a thin film that consists of at least two layers of an oxide-ceramic and metallic material, or a metallic material and an essentially flat substrate that supports the thin film. Said substrate is composed of a ceramicizable glass, a glass ceramic, a hybrid form or an intermediate product. To produce the substrate, selected regions are dissolved out of the photostructurable glass substrate. The composite element can be successfully used in a miniaturised electrochemical device, in particular in a solid oxide fuel cell SOFC, a sensor or as a gas separation membrane. | 01-08-2009 |
20090029195 | THIN FILM AND COMPOSITE ELEMENT PRODUCED FROM THE SAME - A thin film consisting of at least two layers of a ceramic material, a ceramic and metallic material, or in the case of several layers a metallic material. All layers of the thin film have a maximum average particle size of approximately 500 nm and at least two layers consist of different material. In at least one of said layers, an essentially stable average particle size remains after a relaxation time, even in an increased temperature range. The mechanical stability is preferably reinforced by a supporting, essentially flat substrate. In the composite element, the thickness of the substrate is at least five times and in particular between ten and a hundred times the thickness of the thin film. The composite element can be successfully used in a miniaturised electrochemical device, in particular in a solid oxide fuel cell SOFC, a sensor or as a gas separation membrane. | 01-29-2009 |
20090291224 | Porous Ceramic Thin Film - A sheet-like substrate ( | 11-26-2009 |
20090325780 | Ultrastable Particle-Stabilized Foams and Emulsions - Described is a method to prepare wet foams exhibiting long-term stability wherein colloidal particles are used to stabilize the gas-liquid interface, said particles being initially inherently partially lyophobic particles or partially lyophobized particles having mean particle sizes from 1 nm to 20 μm. In one aspect, the partially lyophobized particles are prepared in-situ by treating initially hydrophilic particles with amphiphilic molecules of specific solubility in the liquid phase of the suspension. | 12-31-2009 |
Ludwig Julius Gauckler, Schaffhausen CH
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20130302613 | Microcapsule - A microcapsule, in particular of spherical shape, having a hollow capsule core encased by a capsule shell, characterized in that the capsule shell is at least partially made of hydrated cementitious material. A method for the production of a microcapsule includes the steps of: a) preparing of a suspension of particulate cementitious material in a solvent b) preparing a dispersion by mixing the suspension of step a) with an immiscible fluid so that (i) the suspension is present as a dispersed phase in the fluid as a dispersion medium or that (ii) the fluid is present as the dispersed phase in the suspension as the dispersion medium, such that the particulate material of the suspension adsorbs at least partially at a phase boundary between the fluid and the suspension, and c) allowing the particulate material adsorbed at the phase boundary to hydrate with the formation of an individual microcapsule. | 11-14-2013 |