A process of manufacturing a roll of plastic bags. The process includes forming a tubular blown film, and collapsing the tubular blown film so that the tubular blown film includes a first side, a second side, a first edge, and a second edge. Openings are cut in the collapsed tubular blown film, and sealing closure mechanisms are inserted through the openings into the collapsed tubular blown film. The sealing closure mechanisms are then fixed to the collapsed tubular blown film.

An integrated multilayer assembly for an electronic device includes a first substrate film configured to accommodate electrical features on at least first side thereof, said first substrate film having the first side and a substantially opposing second side, a second substrate film configured to accommodate electrical features on at least first side thereof, said second substrate film having the first side and a substantially opposing second side, the first sides of the first and second substrate films being configured to face each other, at least one electrical feature on the first side of the first substrate film, at least one other electrical feature on the first side of the second substrate film, and a molded plastic layer between the first and second substrate films at least partially embedding the electrical features on the first sides thereof.

A method and apparatus for building a fuselage assembly for an aircraft. A number of fixtures may be drive across a floor to an assembly area to form an assembly fixture. The fuselage assembly may be built on the assembly fixture.

An attachment for an end effector. The attachment may include a clamp and a foot adhesively bonded to an edge of the clamp and having a set of interlocking features that form a mechanical interlock with the clamp.

An integrated multilayer assembly for an electronic device includes a first substrate film configured to accommodate electrical features on at least first side thereof, said first substrate film having the first side and a substantially opposing second side, a second substrate film configured to accommodate electrical features on at least first side thereof, said second substrate film having the first side and a substantially opposing second side, the first sides of the first and second substrate films being configured to face each other, at least one electrical feature on the first side of the first substrate film, at least one other electrical feature on the first side of the second substrate film, and a molded plastic layer between the first and second substrate films at least partially embedding the electrical features on the first sides thereof.

This document describes systems and processes for forming synthetic molded slabs, which may be suitable for use in living or working spaces (e.g., along a countertop, table, floor, or the like).

This document describes systems and processes for forming synthetic molded slabs, which may be suitable for use in living or working spaces (e.g., along a countertop, table, floor, or the like).

A removable fluid barrier comprises a generally planar flexible body fabricated of at least one resilient material and encapsulating a plurality of permanent magnets. The flexible body has an outer face defining a sealing surface of the removable fluid barrier.

The present invention provides a method for fabricating a high sag lens array a high sag lens array fabricated by a semiconductor process. The method comprises: individually jetting an optical glue material into a plurality of lens mold cavities of a mold to form a plurality of lens parts independently; exposing the lens parts to harden the optical glue material in the lens mold cavities; jetting an optical glue layer on the lens parts; forming a transparent substrate on the optical glue layer; exposing the optical glue layer to harden the optical glue layer and combine the transparent substrate, the optical glue layer, and the lens parts; and removing the mold to form the high sag lens array.

A build material container for use in 3D printing includes a reservoir to hold build material and a build material outlet structure. The container also includes a throughput structure to allow air to enter into the reservoir through the throughput opening, wherein said throughput opening provides access to build material in and out of the reservoir.