A closure includes a skirt defining an outer periphery of the closure and having an open bottom end configured to fit over the mouth of a receptacle, an end wall positioned atop the skirt to close a top end of the skirt and form a top face of the closure, one or more openings formed through the end wall, and a sealing rib formed on the top face and diametrically disposed outboard the one or more openings.

A formed tray for baking and transporting a food product is provided herein. In some embodiments, the formed tray includes two cavities surrounded by a peripheral flange. In addition, the formed tray also may include a rigid bridge extending between the cavities and recessed below the peripheral flange. The peripheral flange of the formed tray may include beveled corners and two concave sections. A pre-cooked food product may be disposed in the cavities and sealed within the formed tray by a flexible film. Also provided herein is a process for baking and sealing a food product within the formed tray to provide a pre-cooked packaged food product that may be stored and transported.

A container for a food product generally includes a tray and a cover attached to the tray by ultrasonic bonds. The tray includes a bottom having a perimeter and a sidewall extending along the perimeter of the bottom to form a cavity sized to receive the food product. The sidewall defines an opening for the food product to be placed into the cavity. The tray also includes a flange extending from an edge of the sidewall and around the opening. The flange has a single layer first area with a first thickness and a second area comprised of at least two layers with a second thickness. The second thickness is at least twice as thick as the first thickness. The ultrasonic bonds extend along the entire sidewall of the container to form a continuous, hermetic seal between the cover and the tray around the opening.

A fully compostable beverage capsule may be produced by improving the seal strength between the capsule and its lid. In this invention, a number of protruding “spikes” are added to the upper and/or lower edges of the capsule. The lidding is then attached to the capsule via an energetic welding process, such as ultrasonic welding. The protruding “spikes” are deformed during this welding, increasing the surface area contact between the capsule and its lidding. Acting similarly to rivets, these spikes will improve the strength of the seal that forms between the lidding and the capsule.

A fully compostable beverage capsule may be produced by improving the seal strength between the capsule and its lid. Additionally, the lid itself may be made more resistant to the stress that occurs during brewing. In this invention, the lidding material is cut one or more times to produce a pattern similar to the blades of a pinwheel. The sections or “blades” are then overlapped and energetically welded to one another and joined to the beverage capsule. In this process, the double thickness of lidding material improves the seal between the lidding and the capsule. Each “blade” of the lidding has its own point of attachment to the capsule, which helps to isolate any stress that may occur during the beverage brewing process. As a result, the lidding as a whole remains securely attached to the capsule, even if one or two blades experience sufficient stress to trigger delamination.

A fully compostable beverage capsule may be produced by improving the seal strength between the capsule and its lid. In this invention, a number of protruding tabs are added to the upper and/or lower edges of the capsule. The lidding is then attached to the capsule via an energetic welding process, such as ultrasonic welding. In this process, the protruding tabs are folded over the edge of the capsule and deformed, increasing the surface area contact between the capsule and its lidding. Acting similarly to a swage fitting, these spikes will improve the strength of the seal that forms between the lidding and the capsule.

A system includes a flow line connected to a fluid and a suction line in fluid communication with the flow line, wherein the fluid is to carry cuttings from a borehole. The system also includes a flow line pump to move fluid via the suction line onto a surface of a cuttings separation conveyor, wherein the surface of the cuttings separation conveyor comprises a separation screen. The system also includes a cuttings container positioned to collect a portion of the cuttings from the separation conveyor

A film structure puncture testing tool for testing the resistance to puncturing of a film structure for a product package and a method for analyzing film structures resistance to puncturing.

Various nesting structures for storage, transport and/or assembly of dispensers and containers are described herein. For example, a packaging structure for a plurality of drug dispensers may include a support surface and a plurality of dispenser covers arranged on the support surface, where at least one dispenser cover includes a locking flexure member configured to couple a dispenser to the at least one dispenser cover.

A system for assembling a container and closure comprising an expanding collet which has a plurality of pivoting collet segments, each configured to simultaneously pivot radially outward about a pivot point and comprising. The collet comprises a lip that is engagable with the rim of the open end of the container and an angled tip positioned radially inward from the lip and shaped to press a countersink portion of the closure against an interior wall of the container as the collet segments pivot radially outward. As the container and the chuck are brought together, the rim engages with the lips of the collet segments and causes the angled tips of the collet segments to pivot outward toward the interior wall of the container, thereby pushing the countersink portion of the closure against the interior wall of the container.