A container is formed to include an interior region and a mouth opening into the interior region. The container includes a floor and a side wall coupled to the floor to define the interior region between the floor and the side wall

A multiple beverage container assembly for containing a plurality of beverages includes a first sleeve. A disk is removably coupled to the first sleeve such that the first sleeve and the disk forms a first container for containing a first beverage. A first cap threadably engages the first sleeve to close the first sleeve. The first cap has an aperture extending therethrough and a drinking straw can be extended through the aperture. A second sleeve is removably coupled to the disk such that the second sleeve and the disk forms a second container for discretely containing a second beverage with respect to the first beverage. A second cap threadably engages the second sleeve to close the second sleeve.

A combination packaging container may include a cup-shaped inner container, a sleeve-shaped outer part at least partially surrounding the inner container, and an additional support device disposed on the outer part. The inner container may include a container jacket, a bottom, a flange, an undercut, and at least one of a shoulder and a bead. The outer part may be formed from a blank cut. The blank cut may be wound into a jacket with a first end portion and a second end portion connected to one another in an overlapping region. The outer part may be supportable via the shoulder of the inner container. The additional support device may define a clear inner dimension, which may be smaller than an internal dimension of the outer part in a region of a first end face of the outer part when the outer part is in an undeformed configuration.

Various recyclable containers are described herein and generally comprise a frame made of a first paper-based material having a bottom wall and side walls that extend from the bottom wall; and a metallic layer that is removably positioned along an inner surface of the bottom and side walls of the frame; and at least one tab that is attached to a portion of the metallic layer. The at least one tab has a portion that extends past at least one sidewall of the container so that, during recycling, the at least one tab is pulled to remove the metallic layer from the frame. Examples of methods for manufacturing and recycling these containers are also described herein.

A multi-layer sheet includes an insulative cellular non-aromatic polymeric material, a film, and a polymeric-lamination layer. The insulative cellular non-aromatic polymeric material may be formed from a polymeric formulation comprising a base resin blend and a physical nucleating agent.

A container includes a cup formed to include and interior region and an insulated sleeve. The insulated sleeve is coupled to an outer surface of the cup.

A rollable heat preservation cup, comprising a cup cover, a fixing ring, a bottleneck, and a two-layered cup body which further comprises an inner-layer cup body and an outer-layer cup body, wherein the two-layered cup body is a rollable and soft cup body, wherein a heat-preserving material layer is disposed between the inner-layer cup body and the outer-layer cup body, wherein a fixing ring is disposed between the bottleneck and the cup body, wherein the upper end part of the two-layered cup body is firmly embedded into an inner space formed by the fixing ring and the bottleneck.

The present invention is directed to a deep draw microcellularly foamed polymeric container comprising a polymeric sidewall integrally connected to a polymeric base along a bottom edge. The polymeric sidewall and base are contiguous with each other and define a shape of an open top container. The polymeric sidewall and base have a contiguous inner microcellular foam structure (having average cell diameters ranging from about 5 to about 100 microns) surrounded by a smooth outer skin layer integrally connected therewith. The polymeric sidewall defines a container height and a top opening, wherein the top opening defines a top opening width, and wherein the polymeric base defines a container base width, and wherein the area defined by the top opening is greater than the area defined by the polymeric base, and wherein the ratio of the container height (h) to the top opening width (w) is greater than about 1:1 (h:w).

A container for a food and/or beverages is provided. The container is designed such that it may have the capability of absorbing excess thermal energy from the food or beverage, thereby cooling the consumable material to a desired temperature and maintaining the material at the desired temperature for a considerable period of time. The container typically includes an outer insulating shell; an inner heat conducting liner and a phase change material (PCM). To facilitate heat transfer to and from a food or beverage stored in the container, the PCM is commonly disposed between the outer insulating shell and the inner heat conducting liner and positioned in thermal contact with the inner heat conducting liner. The PCM may include a diol diester having a melting point of about 30 to 90 C.

An insulated container for a beverage comprises an inner wall defining an opening and a volume, an outer wall surrounding the inner wall and defining a cavity between the inner wall and the outer wall, and one or more heat transfer devices within the cavity and attached to the inner wall, the one or more heat transfer devices spaced from the outer wall and configured to contact the outer wall responsive to exceeding a temperature greater than a predetermined temperature. Related insulated containers and methods are also disclosed.