A combined radiation and functional layer application system includes one or more radiation sources and a commonly located functional layer application unit configured to dispose a functional layer over the surface of a fixed target ahead of the radiation sources during relative motion between the target and the radiation sources/application unit. System and method embodiments include those in which the target is stationary or moving, and embodiments in which the functional layer is applied as a liquid or as a solid laminate. Embodiments relate to application of an oxygen-blocking layer of a printing plate prior to exposure to actinic radiation. Certain solid laminate embodiments include a two-roll system for positioning the laminate for cutting adjacent a trailing edge of the plate.

A multilayer particle shield for a spacecraft includes an inboard exterior layer configured to be disposed proximal to the spacecraft, an outboard exterior layer configured to be disposed distal from the spacecraft and at least one interior layer disposed between the inboard exterior layer and the outboard exterior layer, wherein the interior layer includes a semi-rigid, porous, compressible spacer.

The present subject matter relates to a label lid for sealing an opening in a packaging container. The label comprises a facestock layer, a removable adhesive layer, a heat-seal layer, and an optional release coating, wherein the removable adhesive layer does not include a release liner. The removable adhesive layer can be coated on the heat-seal layer or the facestock layer. Optionally, a release coating can be applied to the heat-seal layer or the facestock layer. The composition of the layers used in specific arrangements provides unique performance characteristics for the label for improved sealing, reclosure, and matrix stripping properties.

A method for manufacturing a thermal transfer from a high-loft substrate such as velvet. The method begins with a high-loft material sheet. The sheet is registered in a vacuum press, and a vacuum is applied to one side. A sublimation graphic is printed onto an opposing side of the high-loft material sheet. Next, an adhesive layer is laminated onto the opposing side of the printed sheet. The sheet is optionally laser-etched on the printed side, and is laser-cut into a desired shape. A protective release sheet is applied over the printed graphic. The method makes it possible to sublimation-print the transfer onto high-loft fabric such as velvet and yet still retain fine graphical registration and detail.

Provided are stiffened stringer panels with integrated shim structures. An example composite panel comprises a skin member having an inner surface, and a stringer positioned on the inner surface. The stringer comprises a first flange portion and a second flange portion with the first flange portion and the second flange portion contacting the inner surface. The composite panel further comprises an integrated shim positioned on the first flange portion. The integrated shim may comprise a sacrificial material configured to be trimmed to the desired geometry. The sacrificial material may comprise a glass fiber reinforced plastic fabric pre-impregnated with resin. The integrated shim may be configured to interface with internal support structures of a wing assembly. The integrated shim may be configured to he machined to fit dimensions and measurements corresponding to the internal support structures of the wing assembly.

A film attaching method, and a manufacturing method of a display panel and a display device are disclosed. The film attaching method includes: a pre-cutting process and an attaching process. The pre-cutting process includes cutting the film in a thickness direction of the film to form a removed portion. The attaching process includes aligning the film having the removed portion with a display panel, and attaching the film having the removed portion on a surface to be attached of the display panel.

An electric heating member, in particular for automotive application, includes an electrically conductive, flat-shaped textile member of uniform thickness and a layer of flexible, polymeric plastic material that is adhesively bonded to a surface of the textile member. The electrically conductive textile member is formed by at least two electrically conductive textile member parts that are arranged side by side and are electrically separated. At least one of the at least two textile member parts is electrically connected to electric terminals that are connectable to an electric heater power supply unit. The electric heating member is particularly intended to be used for heating a vehicle steering wheel.

Disclosed is a set of lining plates made of radial tires to protect pieces of equipment from abrasion and to absorb impacts where said set of lining plates comprises a plurality of lining plates made of radial tires that are laid out next to each other in order to line the surface of a given equipment. The lining plates that make up the set are fitted with tongues and grooves so as to allow them to be joined together and make it possible for a perfect fixation through special hook-type screws in order to secure an effective sealing of the equipment surface on which said plates were installed, thus preventing any material from entering the space between the lining plates. The present invention also relates to a method for manufacturing the lining plates of the set using radial tires.

A trim element includes at least one support layer having an inner face and an outer face and at least one functional layer of carbon material extending over at least part of the inner face and/or over at least part of the outer face of the support layer. A part of the functional layer defines a pattern having at least one conductive area of carbon material and at least one non-conductive area formed by a through-opening in the functional layer, the conductive area being powered by a current source electrically connected to the conductive area, the pattern forming at least a part of an electrical circuit arranged to perform a function.

A trim element includes at least one support layer having an inner face and an outer face and at least one functional layer made from a carbon material extending over at least part of the inner face or over at least part of the outer face of the support layer. At least part of the functional layer defines at least one heating element formed by a pattern that includes at least one conductive area made from carbon material and at least one nonconductive area formed by a through opening in the functional layer, the conductive area being supplied by a current source electrically connected to the conductive area.