A run channel for a vehicular door includes a corner section and adhesive wear tape. The corner section includes window surfaces facing interiorly to the corner section, door structure surfaces facing exteriorly to the corner section, and a wear spot on a door structure surface. The adhesive wear tape is applied to the wear spot, and includes a backing configured to shield the wear spot from wear.

A polymer sheet includes a polyurethane core. The polyurethane core has a first major surface and a second major surface opposite the first major surface. The polymer sheet can have at least one functional layer overlying a major surface. The polymer sheet has a thickness t.sub.PS. The polyurethane core has a thickness t.sub.PC. In embodiments t.sub.PC can be at least 0.3 t.sub.PS. The polyurethane core can have at least one of the following property: (i) a Scratch Resistance Rating, as further described herein, of not greater than about 10 wt %, (ii) an elongation at break of at least 200%, (iii) a tensile strength at break of at least 0.3 MPa, (iv) a loss of tensile strength of not greater than about 30% when exposed to UV light according to standard SAE J1960 (Rev. August 2003).

The polymer sheet can be used for gaskets or bonding tapes.

An assembly for use on an aircraft wing having an aircraft skin and a fuel tank, the assembly comprising a metal access door for accessing the fuel tank, a metal retainer ring for engaging the wing and the access door. Fasteners removably couple the access door to the retainer ring. A lip, which may be on the wing surface, is configured to receive a perimeter of the access door when the access door is coupled to the retainer ring. A polyurethane elastomeric gel gasket having a metallic skeleton is configured to lay between the access door and a lip of the metal wing surface. Under compression, the polyurethane will deform and squeeze out the edges and flatten so as to provide metal-to-metal contact between the access door and the lip.

A polymer sheet includes a polyurethane core. The polyurethane core has a first major surface and a second major surface opposite the first major surface. The polymer sheet can have at least one functional layer overlying a major surface. The polymer sheet has a thickness t.sub.PS. The polyurethane core has a thickness t.sub.PC. In embodiments t.sub.PC can be at least 0.3 t.sub.PS. The polyurethane core can have at least one of the following property: (i) a Scratch Resistance Rating, as further described herein, of not greater than about 10 wt %, (ii) an elongation at break of at least 200%, (iii) a tensile strength at break of at least 0.3 MPa, (iv) a loss of tensile strength of not greater than about 30% when exposed to UV light according to standard SAE J1960 (Rev. August 2003).
The polymer sheet can be used for gaskets or bonding tapes.

An assembly for use on an aircraft wing having an aircraft skin and a fuel tank, the assembly comprising a metal access door for accessing the fuel tank, a metal retainer ring for engaging the wing and the access door. Fasteners removably couple the access door to the retainer ring. A lip, which may be on the wing surface, is configured to receive a perimeter of the access door when the access door is coupled to the retainer ring. A polyurethane elastomeric gel gasket having a metallic skeleton is configured to lay between the access door and a lip of the metal wing surface. Under compression, the polyurethane will deform and squeeze out the edges and flatten so as to provide metal-to-metal contact between the access door and the lip.

To effectively prevent a breakage of a plate when a gasket body formed of a rubber-like elastic material is integrally molded at both faces of the plate formed of a brittle material such as carbon. In order to attain this object, there is provided a method of manufacturing a plate-integrated gasket in which a gasket body formed of a rubber-like elastic material is integrally formed at both sides of a portion along a peripheral edge of a plate in the thickness direction, where an area located between gasket molding cavities defined by clamping the plate between split dies of a metal mold in the plate is formed to be a relatively thick portion at a position, facing an opening of a gate through which a molding material is injected into the cavities, and in the vicinity thereof.

A method of manufacturing a spiral-wound PTFE gasket includes winding a laminated PTFE tape (300) around a shaft (305) that has an outer diameter that coincides with the gasket inner diameter to create a PTFE cylinder (315) having an outer diameter that coincides with the gasket outer diameter; sintering the PTFE cylinder (315); and removing a radial segment of the PTFE cylinder (315) to form the gasket (100), the radial segment having a thickness that coincides with the gasket thickness.

Conventional gas mask seals or gaskets are merely rubber flaps integral to and extending from the main body or shell of a gas mask that are conformed to the face of a wearer by tightening straps. The described gas masks comprise a separate gas mask seal and a gas mask shell. Some of the gas mask seals are individualized or customized to more tightly fit and conform to the face of the individual wearer and to provide greater comfort and protection. The gas mask seals may be made from three-dimensional image files developed directly from the wearer's facial features.

The invention relates to a method for producing a gasket on a component using a shaping tool, wherein the material used for the gasket is a UV-curable sealing or gasket material, and wherein the shaping tool comprises an upper face and a lower face and at least one cavity which is open toward the lower face of the shaping tool and which is provided for filling with the gasket material, and wherein furthermore the shaping tool is made of a UV-transparent material at least in the region of the cavity, comprising the following steps in the order indicated: 1. introducing the gasket material into the cavity of the shaping tool; 2. placing the component onto the lower face of the tool provided with the gasket material; 3. pressing the component onto the tool; 4. curing the gasket material by way of UV irradiation; and 5. removing the tool from the component and the gasket joined thereto.

The invention further relates to a shaping tool for use in such a method.

Mold used to manufacture a gasket member includes a first mold, second mold, and plate-shaped substrate clamped between the first and second molds. The first mold includes circumferential groove that opens to a bottom surface of the first mold and forms a cavity, injection groove that opens to the bottom surface and connects to the cavity at first location of the circumferential groove, injection hole having a lower end opens into the injection groove and upper end extends to top surface of the first mold, exhaust groove that opens to the bottom surface and connect to the cavity at a second location of the circumferential groove, and exhaust hole having lower end connect into the exhaust groove and an upper end extends to the top surface of the first mold. The elastic material is injected and filled into the cavity to form the gasket member.