A laminate assembly includes a matrix layer and elongated, continuous strips of a conductive alloy. The matrix layer has opposite first and second sides connected by opposite first and second edges. Each of the first and second edges extends from the first side of the matrix layer to the opposite second side of the matrix layer. The elongated, continuous strips of the conductive alloy are disposed in the matrix layer between the first and second sides of the matrix layer. The elongated continuous strips continuously extend through the matrix layer from the first edge to the opposite second edge.

A laminated moulded part of fibre-reinforced resin matrix composite material, the moulded part comprising a first ply comprising fibres impregnated with a resin, an outer surface of the first ply defining an outer surface of the laminated moulded part, a rope located around at least a part of a periphery of the first ply, the rope comprising a plurality of strands of fibres twisted together and impregnated with a resin, a second ply comprising fibres impregnated with a resin, the second ply at least partly covering an inner surface of the first ply, at least a portion of a peripheral edge of the second ply being located inwardly of a corresponding portion of the rope, and at least a portion of the periphery of the first ply being folded over so as to wrap around the rope and cover the corresponding peripheral edge of the second ply.

A laminated moulded part of fibre-reinforced resin matrix composite material, the moulded part comprising a first ply comprising fibres impregnated with a resin, an outer surface of the first ply defining an outer surface of the laminated moulded part, a rope located around at least a part of a periphery of the first ply, the rope comprising a plurality of strands of fibres twisted together and impregnated with a resin, a second ply comprising fibres impregnated with a resin, the second ply at least partly covering an inner surface of the first ply, at least a portion of a peripheral edge of the second ply being located inwardly of a corresponding portion of the rope, and at least a portion of the periphery of the first ply being folded over so as to wrap around the rope and cover the corresponding peripheral edge of the second ply.

Patent of invention for “automated process for manufacturing items of furniture in an integrated manufacturing cell and integrated cell for manufacturing items of furniture”. There is described an automated process for manufacturing items of furniture in an integrated manufacturing cell, the process comprising the following steps: a) Initial machining of plate (P) according to a manufacturing program, generating channels and holes; b) Installing inserts in the holes generated in the initial machining and applying resin in at least one side hole of the insert; c) Applying edging resin inside the channels generated in the initial machining; d) Curing the edging resin and resin of the inserts in a heated environment; e) Final machining of plate (P) generating at least one item of furniture. There is also described an integrated cell for manufacturing items of furniture (100), comprising a machining station (200) and a curing station (50) associated with each other by way of a transfer module (30).

Patent of invention for “automated process for manufacturing items of furniture in an integrated manufacturing cell and integrated cell for manufacturing items of furniture”. There is described an automated process for manufacturing items of furniture in an integrated manufacturing cell, the process comprising the following steps: a) Initial machining of plate (P) according to a manufacturing program, generating channels and holes; b) Installing inserts in the holes generated in the initial machining and applying resin in at least one side hole of the insert; c) Applying edging resin inside the channels generated in the initial machining; d) Curing the edging resin and resin of the inserts in a heated environment; e) Final machining of plate (P) generating at least one item of furniture. There is also described an integrated cell for manufacturing items of furniture (100), comprising a machining station (200) and a curing station (50) associated with each other by way of a transfer module (30).

A method for producing a composite fiber component, in which a sensor apparatus having a flexible circuit carrier and/or a sensor module, in particular a micromechanical acceleration sensor module, is integrated, includes loading a tool for producing the composite fiber component with textile layers and the sensor apparatus; closing, in particular air-tight sealing, of the loaded tool and compressing the textile layers and the sensor apparatus; introducing a liquid matrix, in particular a resin, in particular a pure resin, into the sealed tool to produce the composite fiber component; detecting, in particular in real time, an acceleration relative to the introducing and/or sealing by means of the sensor apparatus and/or the sensor module of the sensor apparatus; and deriving and/or evaluating a process parameter of the production method depending on the detected acceleration.

A method for producing a composite fiber component, in which a sensor apparatus having a flexible circuit carrier and/or a sensor module, in particular a micromechanical acceleration sensor module, is integrated, includes loading a tool for producing the composite fiber component with textile layers and the sensor apparatus; closing, in particular air-tight sealing, of the loaded tool and compressing the textile layers and the sensor apparatus; introducing a liquid matrix, in particular a resin, in particular a pure resin, into the sealed tool to produce the composite fiber component; detecting, in particular in real time, an acceleration relative to the introducing and/or sealing by means of the sensor apparatus and/or the sensor module of the sensor apparatus; and deriving and/or evaluating a process parameter of the production method depending on the detected acceleration.

A body-mountable device may include a first polymer layer, a second polymer layer, and a structure that includes a sensor between the first and second polymer layers. Fabricating the body-mountable device may involve providing a respective surface layer on each of one or more molding pieces, forming a first polymer layer, positioning the structure on the first polymer layer and then forming, between molding pieces, the second polymer layer over the structure positioned on the first polymer layer. The surface layer of each molding piece may facilitate release of the polymer layer or fabricated body-mountable device without disruption to the embedded structure.

A baseball/softball comprises a core and a cover, wherein the core is wrapped with a layer of fiber material, and the layer of fiber material is wrapped and glued with the cover. A method of processing baseball/softball comprises wrapping the core with the layer of fiber material, placing the core and the layer of fiber material into a cover material, placing the core, the layer of fiber material outside the core and the layer of cover material outside the layer of fiber material into a mold; molding the layer of cover material into the cover through a vulcanization process, gluing a vulcanization melting layer formed on inner wall of the cover to the layer of fiber material, and finally taking the finished product out of the mold. From the perspectives of smell, touch and visual sense, the product has good simulation effect of baseball/softball and better service effect.

A modular sensor for a fluidic analysis or biological assay system, such as an analytical instrument system, and other systems involving fluid flow, includes a cap and base which include one or more sensors therein, which may be a flow sensor, a pressure sensor, a temperature sensor, a pH sensor, and so forth. The base of the modular sensor includes input and output ports for fluid passageways therethrough to provide a fluid pathway which is at least partially adjacent to or near the sensor. The modular sensor may also include an adapter having ports adapted to sealingly engage with fitting assemblies. The sensor may be partially or wholly encapsulated as part of the base of the modular sensor. The modular sensor's base and cap are adapted so that a first modular sensor can be disconnected and removed from a fluidic system and a second modular sensor can be added and connected to the system in place of the first modular sensor. The modular sensor is adapted to be interchangeable with one or more other modular sensors.