An outer cover for an absorbent article includes a nonwoven component having a plurality of apertures formed therein and a film bonded to the apertured nonwoven component. The apertures in the nonwoven component are formed by needling prior to the film being bonded to the nonwoven component. A method of making the outer cover includes feeding a web of nonwoven material to a needling station, needling the web of nonwoven material to form a plurality of apertures therein to define an apertured web of nonwoven material, and bonding the apertured web of nonwoven material to a film.

An apparatus for manufacturing a membrane electrode assembly includes a suction roller, a porous base material supply roller, a porous base material collection roller, a laminated base material supply roller, an assembly collection roller, an application part disposed around the suction roller and a maintenance space for the maintenance of the application part. The porous base material supply roller and the porous base material collection roller are disposed on the opposite side of the suction roller from the maintenance space as seen in a horizontal direction. The porous base material supply roller and the porous base material collection roller are collectively disposed on one side of the suction roller. This configuration ensures the maintenance space on the opposite side of the suction roller, and lowers the height dimension of the manufacturing apparatus.

An apparatus for separating a wafer from a carrier includes a platform having an upper surface, a tape feeding unit, a first robot arm, and a controller coupled to the platform. The controller is configured to mount a wafer frame, by using the tape feeding unit, on a wafer of a wafer assembly on the upper surface of the platform. The wafer assembly includes the wafer, a carrier, and a layer of wax between the wafer and the carrier. The controller is also configured to heat the upper surface of the platform to a predetermined temperature and separate, by the first robot arm, the wafer and the wafer frame mounted thereon from the carrier.

A system for applying a material to a substrate comprising: a feed section that comprises a feed roll and configured for advancing a material along a predetermined path; a material applicator roll configured to receive the material from the feed roll and apply a cut length of material to a substrate; a knife element located between the feed section and the material applicator roll; and a non-vacuum anvil roll positioned near the knife element, wherein the knife element and the non-vacuum anvil roll are positioned along the path of the material and engage the material to cut the material into the cut length of material for applying to the substrate, and wherein the material contacts the peripheral surface of the non-vacuum anvil roll only at a cut engagement point.

Transfer films, articles made therewith, and methods of making and using transfer films to form bridged nanostructures are disclosed.

The disclosure, in some aspects, relates to a method and apparatus for assembling a laminated fuel cell, in which an assembly head comprising one or more punches is used for dividing portions from sheet material and for transferring the portions to an electrode plate for lamination. Embodiments disclosed include a method of assembling a laminated fuel cell, the method comprising the steps of: providing a first sheet material (202b) to a first die (205); translating an assembly head (204) to a first location adjacent the first die, the assembly head comprising a first punch (501) having a surface (507) configured to engage with the first die; engaging the first punch with the first die to divide a portion from the first sheet material; adhering the first sheet portion to the surface of the first punch; translating the assembly head with the first sheet material portion to an assembly station (203) comprising an electrode plate (701); and applying the first sheet material portion to a surface of the electrode plate.

A method for producing a Fiber Metal Laminate component of an airplane, using a manipulator system with an end effector and a control, wherein at least one metal layer and at least one unhardened fiber layer are being stacked onto each other in a mould in a stacking sequence, wherein each stacking cycle comprises picking up a metal layer or a fiber layer from a supply stack according to the stacking sequence, transporting the layer to the mould, placement of the layer at a deposition surface in the mould and depositing the so placed layer onto the deposition surface. After being picked up from the supply stack and before being deposited onto the deposition surface the layer to be stacked can be deformed by the end effector as to adapt the form of the layer to the form of the deposition surface.

A substrate suctioning device includes a table having a suction surface suctioning a substrate, and a plurality of suction units provided on the suction surface of the table. The substrate suctioning device includes a control unit that, with setting a group of suction unit(s) among the plurality of suction units as a starting point, sequentially decompresses a plurality of remaining suction units disposed in a direction away from the group of suction unit(s) as the starting point, along the direction away from the group of suction unit(s) as the starting point.

A dimensionally stable universal floor covering includes a tufted textile having stitches and a reinforcement layer operatively connected to the stitches to provide dimensional stability for the entire floor covering. The reinforcement layer is made of fibers that are initially contained within a composition of adhesive and fibers. Mixing of the adhesive/fibers composition and/or injection of compressed air, assists in preparing the adhesive and fiber composition to be in the preferred condition and position prior to the forming of the reinforcement layer. Multiple sources of pressure, including vacuum, are applied in a controlled manner for moving the adhesive and fiber composition to form a reinforcement layer of fibers that is operatively connected to the stitches and/or to form a layer of fibers and adhesive that is contained within the stitches. The universal floor covering is selectively cut and transported in a roll for installation, and it can be conveniently recycled if necessary.

A bonding device for attaching a curved cover plate with an irregular shape to a flexible screen includes: a first attaching half having a first abutting wall, a second half, and a driving component. The first abutting wall includes a first curved wall and a first flat wall. The first curved wall matches with an inner surface of the arc hook area, and the first flat wall is smoothly connected to the first curved wall. The second attaching half has a second abutting wall. The second abutting wall includes a second curved wall and a second flat wall. The second curved wall matches with an inner surface of the arc hook area. The second flat wall is smoothly connected to the second curved wall. The driving component drives the first attaching half and the second attaching half to move relative to each other.