A mould for the production of slabs in granular material and/or grits and/or sands with curing resins comprising a flat bottom, a perimeter framework operatively or rigidly connected to the flat bottom wherein the perimeter framework comprises a plurality of side walls, the flat bottom and the perimeter framework delimiting a compartment for forming the slab; a plant for the production and a method of forming slabs in granular material and/or grits and/or sands with curing resins are also provided.

An isostatic press apparatus includes a pressure vessel for pressing a workpiece using the pressure of a pressurized liquid, a heat exchanger for exchanging heat with the pressurized liquid, a heating/cooling supply unit for heating or cooling a heat exchange medium that is to be supplied to the heat exchanger, a pressurized liquid circulation fan for circulating the pressurized liquid, a circulation fan motor for rotating the pressurized liquid circulation fan, a motor accommodation unit for accommodating the circulation fan motor therein, and a pressure equalization adjustment unit for increasing or decreasing the internal pressure in the motor accommodation unit to match the internal pressure in the pressure vessel.

An isostatic press apparatus includes a pressure vessel for pressing a workpiece using the pressure of a pressurized liquid, a heat exchanger for exchanging heat with the pressurized liquid, a heating/cooling supply unit for heating or cooling a heat exchange medium that is to be supplied to the heat exchanger, a pressurized liquid circulation fan for circulating the pressurized liquid, a circulation fan motor for rotating the pressurized liquid circulation fan, a motor accommodation unit for accommodating the circulation fan motor therein, and a pressure equalization adjustment unit for increasing or decreasing the internal pressure in the motor accommodation unit to match the internal pressure in the pressure vessel.

The present disclosure pertains to a trim part for a motor vehicle that comprises: a carrier; and a decorative material applied onto an upper surface of the carrier, wherein the decorative material comprises a printed thermoplastic film; and wherein the trim part is shaped by a deep-drawing process and a grain or impression is produced on the visible side of the film, which faces away from the carrier, by the deep-drawing process. A method and a device for manufacturing the trim part is also proposed.

The present disclosure pertains to a trim part for a motor vehicle that comprises: a carrier; and a decorative material applied onto an upper surface of the carrier, wherein the decorative material comprises a printed thermoplastic film; and wherein the trim part is shaped by a deep-drawing process and a grain or impression is produced on the visible side of the film, which faces away from the carrier, by the deep-drawing process. A method and a device for manufacturing the trim part is also proposed.

A method includes placing an optical substrate onto a vacuum mold having a bent contact surface characterized by a surface roughness. The method further includes bending, by an applied bending force, the optical substrate and the protective sheet to cause the protective sheet to come into contact with the bent contact surface of the vacuum mold, generating a vacuum-induced holding force to hold the protective sheet against the bent contact surface of the vacuum mold. After a holding time period, the vacuum-induced holding force is released. During molding, a protective sheet provides a buffer layer between the bent contact surface of the vacuum mold and an optical surface of the optical substrate thereby mitigating against transfer of the surface roughness of the bent contact surface onto the optical surface.

A method includes placing an optical substrate onto a vacuum mold having a bent contact surface characterized by a surface roughness. The method further includes bending, by an applied bending force, the optical substrate and the protective sheet to cause the protective sheet to come into contact with the bent contact surface of the vacuum mold, generating a vacuum-induced holding force to hold the protective sheet against the bent contact surface of the vacuum mold. After a holding time period, the vacuum-induced holding force is released. During molding, a protective sheet provides a buffer layer between the bent contact surface of the vacuum mold and an optical surface of the optical substrate thereby mitigating against transfer of the surface roughness of the bent contact surface onto the optical surface.

An apparatus may include a substrate holder configured to hold a substrate. The substrate holder may include a first chucking region having a first area and an adjacent region extending from the chucking region. The apparatus may also include a superstrate holder configured to hold a superstrate. The superstrate holder may include a second chucking region having a second area. The second area may be larger than the first area and the superstrate holder faces the substrate holder forming a first gap between the adjacent region surface and the superstrate and a second gap between the substrate and the superstrate. The apparatus may also include a gas supply system between the first gap and the second gap. The superstrate holder may alter a shape of the held superstrate to decrease the first gap and increase the second gap.

An apparatus may include a substrate holder configured to hold a substrate. The substrate holder may include a first chucking region having a first area and an adjacent region extending from the chucking region. The apparatus may also include a superstrate holder configured to hold a superstrate. The superstrate holder may include a second chucking region having a second area. The second area may be larger than the first area and the superstrate holder faces the substrate holder forming a first gap between the adjacent region surface and the superstrate and a second gap between the substrate and the superstrate. The apparatus may also include a gas supply system between the first gap and the second gap. The superstrate holder may alter a shape of the held superstrate to decrease the first gap and increase the second gap.

A method, system, and apparatus for a fibrillar adhesion device comprises forming a stem mold, generating an array of at least one stems using the stem mold, forming a cap mold, generating an array of at least one caps using the cap mold, adhering the array of at least one stems to the array of at least one caps, and removing the cap mold wherein the resulting system comprise an array of at least one fibrillar adhesive structures.