A method for manufacturing a closure constructed to be inserted and securely retained in a neck of a product-retaining container includes intimately combining a plurality of coated particles (each comprising a cork material core and a first plastic material) with a second plastic material, and other optional constituents; heating the composition to form a melt; extruding or molding a closure precursor from the melt; and optionally cutting and/or finishing the closure precursor. A composition for use in manufacturing a closure includes a plurality of coated particles (each comprising a cork material core and a first plastic material) with a second plastic material, and one or more blowing agents. Methods for producing particulate material, cork composite material, and additional method for producing closures are also provided.

A thermoplastic material includes one or more thermoplastic polymers in the form of particles having a specified average particle size distribution (e.g., less than 1000 microns or another range) measured by mechanical sieving. Such thermoplastic material may be incorporated in a cork composite material that includes cork, such as in the form of cork particles. The thermoplastic material and cork may be used to produce an article of manufacture, such as a closure for a product retaining container, the closure being constructed for being inserted and securely retained in a portal-forming neck of said container.

A method for manufacturing a closure constructed to be inserted and securely retained in a neck of a product-retaining container includes intimately combining a plurality of coated particles (each comprising a cork material core and a first plastic material) with a second plastic material, and other optional constituents; heating the composition to form a melt; extruding or molding a closure precursor from the melt; and optionally cutting and/or finishing the closure precursor. A composition for use in manufacturing a closure includes a plurality of coated particles (each comprising a cork material core and a first plastic material) with a second plastic material, and one or more blowing agents. Methods for producing particulate material, cork composite material, and additional method for producing closures are also provided.

A particulate material includes cork particles having a particle size distribution D.sub.50 measured by mechanical sieving in a specified range (e.g., from 0.25 millimetres to 5 millimetres) for use in the production of a cork composite material. A cork composite material may include the particulate material and a thermoplastic material The particulate material and/or cork composite material may be used to produce an article of manufacture, such as a closure for a product-retaining container constructed for being inserted and securely retained in a portal-forming neck of said container. Methods for producing particulate material, cork composite material, and closures are also provided.

A method for manufacturing coated particles, said coated particles comprising (1) a core comprising cork material and (2) at least one outer shell comprising a plastic material, includes providing a mixture including cork particles and plastic material comprising thermoplastic material, applying mechanical and/or thermal energy to the mixture to at least partially soften the plastic material, and blending the mixture, whereby the plastic material is at least partially distributed over the surfaces of the individual cork particles. Use of coated particles obtainable by such method in the manufacture of a closure for being inserted and securely retained in a portal-forming neck of a product-retaining container, is also provided.

A method for manufacturing a closure constructed for being inserted and securely retained in a portal-forming neck of a product-retaining container is provided. Such method may include intimately combining a plurality of particles comprising cork and having a specified particle size distribution with a plastic material including one or more thermoplastic polymers, optionally in combination with other constituent(s) to form a composition, heating the composition to form a melt, extruding or molding a closure precursor from the melt to provide a specified water content range, and optionally cutting and/or finishing the closure precursor. A composition for use in manufacturing a closure for a product-retaining container includes a plurality of particles comprising cork and having a specified particle size distribution with a plastic material including one or more thermoplastic polymer, optionally in combination with other constituent(s). Methods for producing particulate material, cork composite material, and additional methods for producing closures are also provided.

Container closures wherein at least one void comprised in the closure is at least partially filled with a gas or gaseous mixture which by composition or pressure is different from air are disclosed. The oxygen content of said gas can be lower than the oxygen content of air. Through use of such closures for sealing closed containers, the amount of air and therefore oxygen that enters the closed container through closure desorption can be effectively controlled, changed, or even largely eliminated.

An objective of the present invention is to provide a method for producing a cork stopper by compression molding cork grains, which can provide a cork stopper excellent in sealability and safety. There is provided a method for producing a cork stopper, comprising: mixing cork grains and an adhesive; compression molding the mixture to give an intermediate; and then heating the intermediate to expand the cork grains.

The disclosure relates to a container having a one-piece container body comprising fibers and having a mouth opening and a closure for the container body. The closure is at least partially inserted in a closure position into the mouth opening, the closure, in cooperation with an inner surface of the mouth opening, being positioned in the mouth opening at least partially with a non-positive fit, the container body is thereby closed. The closure is also designed to be moved from the closure position to an open position completely outside the container body. The disclosure further relates to a method for manufacturing a container body and to a method for manufacturing a closure for use with the container, a device for closing a container body by a closure, and a method for closing a container body by a closure by the device.

Systems and methods for preserving oxidizable substances such as liquids or foodstuffs are disclosed. These systems incorporate a sealing device and an oxygen scavenging chemical or agent coupleable to the system. The oxygen scavenging agent can remove the oxygen from the headspace of a container such as a bottle of wine without reducing the pressure in the headspace to the extent that the flavor of the wine is adversely affected.