A method of forming a shipping container includes mixing paper fibers with a binder fiber to form a mixture; disposing the mixture onto a surface to form a layer of the mixture; applying heat to form a paper fiber batt from the mixture having a fixed width and fixed length; and inserting the paper fiber batt within an interior of a corrugated box.

A collapsible container comprising a base comprising a plurality of grooves located at a periphery of a top surface of said base; a first sleeve having a first set of three flat surfaces; wherein at least one first flat surface of said first set of three flat surfaces comprises an extension of said first flat surface adapted to be inserted in at least one groove of said plurality of grooves; a second sleeve having a second set of three flat surfaces; wherein at least one second flat surface of said second set of three flat surfaces comprises an extension of said second flat surface adapted to be inserted in at least one groove of said plurality of grooves; where when said first sleeve and said second sleeve are located in their respective grooves, they completely surround said base; where said plurality of grooves do not comprise a full-angled groove.

A method and system for producing an insulated mailer and an insulated box having an insulative paper fiber pad substructure with a density of less than about 10 pounds per cubic foot. The insulative paper fiber pad has entangled reinforcement fibers. A method of forming an insulative paper fiber pad using recycling-compatible or water soluble adhesive and paper layers is provided.

A method and system for producing an insulated mailer and an insulated box having an insulative paper fiber pad substructure with a density of less than about 10 pounds per cubic foot. The insulative paper fiber pad has entangled reinforcement fibers. A method of forming an insulative paper fiber pad using recycling-compatible or water soluble adhesive and paper layers is provided.

The present invention is directed to a lid (1) for closing the upper opening of a cup (2), said cup (2) containing a cold or hot, liquid or semi-liquid, food or beverage product, said lid (1) comprising a substantially flat body (3) and a peripheral rim extending downwardly for attaching said lid to the upper edge (5) of the cup, said lid further comprising a drinking spout (6), characterized in that it comprises a coating (7) comprising at least one volatile aromatic product, said coating (7) being adapted to release said volatile aromatic product with the air that is mixed to said liquid or semi-liquid edible product, at the time the latter is sipped through said drinking spout (6).

A repulpable insulated container assembly having a container formed of paper such as corrugated cardboard or varying paper materials and defining an interior; and a repulpable insert placed within the interior of the container and formed of a first paper layer; and a paper fiber pad coupled to the first paper layer.

A method of forming a shipping container includes mixing paper fibers with a binder fiber to form a mixture; disposing the mixture onto a surface to form a layer of the mixture; applying heat to form a paper fiber batt from the mixture having a fixed width and fixed length; and inserting the paper fiber batt within an interior of a corrugated box.

A plastic container assembly includes an outer container and an inner liner or bag, wherein the inner liner or bag is expanded within the outer container. Processes for making a plastic container with an inner liner are also disclosed.

Provided is a polymer composition for manufacturing a large container that contains high-density polyethylene recycled from a secondary battery separator and has excellent mechanical properties. Specifically, a polymer composition having excellent processability may be prepared by recycling a secondary battery separator, and an eco-friendly large container having excellent mechanical properties such as a flexural modulus, an elongation, and an impact strength in a wide temperature range, and having an excellent environmental stress cracking resistance may be manufactured by molding the polymer composition.

A repulpable insulation material includes a batt formed of a mixture of thermoplastic binder fibers and cellulose fibers bound together by the thermoplastic binder fibers, the thermoplastic binder fibers making up about 0.5% to 25% by weight of the batt, the repulpable insulation material having a weight within a range from 1000 GSM to 1600 GSM, wherein subjecting the repulpable insulation material to a repulpability test produces greater than 85% fiber yield.