The disclosure relates to containers and other shaped articles that have a relatively thick substrate layer and one or more relatively thin liner sheets peelably adhered thereto. Animal litter can be placed atop the liner sheets, preferably in a concave portion to contain the litter. The liner sheets have perforations extending therethrough that permit the passage of non-soiled litter, but do not permit the passage of at least one of animal feces and soiled animal litter, such as clumps of litter and urine. After an animal has deposited waste on or in the litter, the liner sheet can be peeled from the container and waste unable to pass through the perforations can be collected.

A multi-sheet component for a utility vehicle that includes at least one gap between at least two of the sheets, thereby providing a component that enhances worker safety by increasing component stiffness and reducing component thickness. The component is manufactured through multi-sheet thermoforming and uses a conical frustum corrugation to increase stiffness.

A multi-sheet component for a utility vehicle that includes at least one gap between at least two of the sheets, thereby providing a component that enhances worker safety by increasing component stiffness and reducing component thickness. The component is manufactured through multi-sheet thermoforming and uses a conical frustum corrugation to increase stiffness.

An apparatus and method for producing a composite molded body in which several layers of prepregs are laid over one another, adhesively bonded to each other and cured under pressure and/or vacuum, wherein the prepreg layers laid over one another are introduced into an airtight shell, the interior of the shell is connected to a vacuum source and evacuated and the molded body is cured together with the shell in a furnace. In order to develop a corresponding method and a composite molded body which can be produced with it, which does not have at least some of the above disadvantages, an antifriction agent is introduced into the interior of the shell before the evacuation of the shell.

An apparatus and method for producing a composite molded body in which several layers of prepregs are laid over one another, adhesively bonded to each other and cured under pressure and/or vacuum, wherein the prepreg layers laid over one another are introduced into an airtight shell, the interior of the shell is connected to a vacuum source and evacuated and the molded body is cured together with the shell in a furnace. In order to develop a corresponding method and a composite molded body which can be produced with it, which does not have at least some of the above disadvantages, an antifriction agent is introduced into the interior of the shell before the evacuation of the shell.

Padding element for seats such as sofas, armchairs, chairs and armrests, wherein such seats have a support structure, or similar support structure for the human body or parts thereof, such as rest or anti-fatigue mats, anti-decubitus mattresses, shower mats, anti-impact mats, wherein the padding element is provided with a support surface for a user, wherein the padding element includes one film or covering, one gel layer adhering to part of the film or covering and one compact elastomeric layer having a surface for contact with the gel layer and with part of the film or covering and one surface for contact with the seat and/or with the support structure of the seat, wherein the compact elastomeric layer adheres to the gel layer and the film or covering; method for obtaining such padding element.

The present invention relates to a web comprising: discrete extended elements having open proximal ends, open or closed dismal ends and side walls; macro apertures arranged in a staggered pattern; first regions comprising a first top plane; and second regions comprising a second top plane having a length less than or equal to about 0.9 mm, wherein each of the first regions is surrounded by four distinctive second regions, the four distinctive second regions being connected by two adjacent macro apertures in the first direction and another two adjacent macro apertures in the second direction which is orthogonal to the first direction, and wherein each of the second regions is surrounded by two adjacent first regions and two adjacent macro apertures located in a third direction or a fourth direction not parallel either to the first direction or to the second direction.

An automotive center console includes a console body having an interior cavity accessible through an opening and a tambour door for opening and closing the opening. The tambour door includes a vacuum formed cover, a substrate including a plurality of generally parallel slats allowing the tambour to flex to a curved shape and an foam layer in between the substrate and the cover. The foam layer is formed using a foam in place (FIP) process.

The present disclosure includes a method for modifying an input image to map to a three dimensional shape prior to forming the three dimensional shape. The method includes receiving by a processor at least two pre-forming images of a locally unique non-repeating pattern printed on an input material. The at least two pre-forming images are captured prior to the input material being formed into the three dimensional shape. The method further includes receiving by the processor at least two post-forming images of the pattern printed on the input material, wherein the post-forming images are captured after the input material has been formed into the three dimensional shape and analyzing by the processor the at least pre-forming images and the at least two post-forming images to determine a translation table.

Disclosed is a multilayered container having an intermediate layer comprising an oxygen-absorbable barrier resin composition showing excellent processability upon molding. Specifically disclosed is a multilayered container which comprises an inner layer and an outer layer each comprising an olefin resin and an intermediate layer provided between the inner layer and the outer layer and comprising an oxygen-absorbable barrier resin composition, wherein the oxygen-absorbable barrier resin composition has a cooling crystallization peak temperature lower than that of a base resin (an oxygen barrier resin) which constitutes the oxygen-absorbable barrier resin composition, the multilayered container is formed by a solid-phase-forming process at a temperature lower by 1 to 15? C. than the cooling crystallization starting temperature (Tc2) of the base resin, and the body of the container shows a calorific value of less than 0.5 J/g by the isothermal crystallization after heating from 30? C. to 130? C. at a heating rate of 100? C./min in a thermal analysis of the body.