Provided is a metal catalyst support including: a case having a space through which exhaust gas passes; and flat plates and corrugated plates which are alternately stacked in the case and coated with a catalyst, wherein the corrugated plates are formed such that a first corrugated plate and a second corrugated plate are disposed with the flat plate therebetween, the first corrugated plate and the second corrugated plate are disposed such that a first corrugated portion and a second corrugated portion are alternately and repeatedly formed, and the vertex of the first corrugated portion and the vertex of the second corrugated portion face and coincide with each other, to thereby minimize deformation during thermal expansion due to external impact, vibration and temperature change.

The invention relates to a coolant compressor having a compressor housing (6), an electric drive unit comprising a rotor (4) and a stator (3), a crankshaft (1) rotationally fixedly connected to the rotor (4) and having a longitudinal axis (2); and a piston-cylinder unit (5) that can be driven by the crankshaft (1). In order to permit an increased feed rate of lubricant from a lubricant sump, according to the invention, on an end of the crankshaft (1) that is opposite to the piston-cylinder unit (5) there is arranged a sleeve-like lubricant receptacle (8) for the centrifugal delivery of lubricant out of the lubricant sump in the direction of the piston-cylinder unit (5), wherein the sleeve-like lubricant receptacle (8) is fixed to the crankshaft (1) via a fixing section (9), wherein the fixing section (9) of the sleeve-like lubricant receptacle (8) is at least partly arranged between crankshaft (1) and rotor (4) in the radial direction in relation to the longitudinal axis (2) of the crankshaft (1).

A lamination head has a material supply drum, a backing layer collection drum, and a backing layer separation assembly. The material supply drum supports a material roll of backed material comprising layup material backed by a backing layer. The backing layer collection drum moves from a collection drum home position to a collection drum engagement position proximate the material supply drum, engage a backing layer leading edge on the material roll, and moves back to the collection drum home position while dispensing a threadable portion of at least the backing layer. The backing layer separation assembly has a backing layer separation device and a backing layer separation mechanism. The backing layer separation device translates from a separation device home position to a separation device engagement position and pulls the threadable portion into proximity to the backing layer separation mechanism for separating the backing layer from the layup material.

Provided are a wafer bonding apparatus for accurately detecting a bonding state of wafers in a wafer bonding process and/or in a wafer bonding system including the wafer bonding apparatus. The wafer bonding apparatus includes a first supporting plate including a first surface and vacuum grooves for vacuum-absorption of a first wafer disposed on the first surface, a second supporting plate including a second surface facing the first surface. A second wafer is on the second surface. The wafer bonding apparatus and/or the wafer bonding system include a bonding initiator at a center portion of the first supporting plate, and an area sensor on the first supporting plate and configured to detect a propagation state of bonding between the first wafer and the second wafer.

A laminating apparatus and method of fabricating a display device are provided. According to an exemplary embodiment of the present disclosure, the laminating apparatus includes a first jig, which is configured to fix a window having curved surfaces, and a second jig, which includes a pressure pad facing the first jig. The pressure pad includes a top surface, which is convex toward the first jig, and depressed portions, which are inwardly depressed from side surfaces, respectively.

A tubular containment part used in a flywheel containment assembly, wherein the tubular containment part is built up of easily configurable layers of different materials and wherein the containment casing is included a spirally wound tubular structure formed from layers made of one or more different materials. The invention further relates to a method for manufacturing such a tubular containment part.

A method of manufacturing a stack includes a sequence of operations including separating a sheet from a temporary stack of sheets, rotating the sheet after it has been separated, and applying an adhesive to the sheet, while it is being rotated, by dispensing the adhesive to a surface of the sheet by at least one dispenser and restacking a plurality of the sheets, to which the adhesive was applied by repeating the sequence of operations, to form a manufactured stack of sheets.

A manufacturing system includes a first mandrel, a second mandrel, and laminate securing mechanisms. The first mandrel has a first mandrel surface and a first mandrel surface edge. The second mandrel has a second mandrel surface and a second mandrel surface edge, and is positionable in a closed position in which the first mandrel surface edge and the second mandrel surface edge are in contact to form a continuous mandrel surface collectively defined by the first mandrel surface and the second mandrel surface. The second mandrel translates to an open position defining a gap between the first mandrel surface edge and the second mandrel surface edge for receiving a forming die. The laminate securing mechanisms secure the composite laminate on at least one of the first mandrel and the second mandrel during trimming and/or forming of the composite laminate.

A thermally insulative, flexible, durable reflective exhaust pipe sleeve and method of construction thereof is provided. The sleeve includes a knit, heat-resistant inner layer, a reflective metallic outer layer and an intermediate layer sandwiched between the inner and outer layers. The inner layer is constructed having an inner surface exposed to an inner cavity of the sleeve and the outer layer is constructed having an outer reflective surface exposed to the surrounding environment. The intermediate layer is constructed of a woven material and is sandwiched in abutment with the inner and outer layers. The outer and intermediate layers are convoluted, while the inner layer is cylindrically tubular.

Embodiments are directed to systems and methods for creating a tubular composite structure. In one embodiment, a device comprises multiple layers of cured composite fabric bonded together to form a tubular composite structure, wherein alternating groups of the multiple layers comprise on-axis fabric and off-axis fabric. The tubular composite structure may form a spar for an aerodynamic component. The composite fabric may comprise one or more of carbon, fiberglass, or other composite materials, or a combination of materials. One or more stacks of the fabric wrap completely around the tubular composite structure, and other stacks of fabric may not wrap completely around the tubular composite structure.