The present invention is directed to a method of inkjet printing an image on a glass container comprising the steps of: a) manufacturing a glass container having a CEC layer; b) removing at least part of the CEC layer to a level wherein the remaining CEC layer has a thickness of less than 20 nm by washing the CEC from the glass container with an aqueous solution containing non-ionic surfactant, rinsing with water and blowing the water from the container by means of a pressurized air stream, c) inkjet printing an image on the glass container.

A combination set of eco-friendly recycling beverage container includes a container unit and a recycling storage unit. The container unit includes a soft part that has softness that folds and bends more easily than plastic or glass and stores a beverage therein, an inlet support part coupled around a beverage outlet at an upper end of the soft part, and a bottom support part coupled to a lower end of the soft part. The recycling storage unit is configured to accommodate and bind the container unit, the recycling storage unit having a multi-stage overlapping structure in which an overall height is reduced depending on a degree of reduced amount of the beverage contained in the container unit.

A combination set of eco-friendly recycling beverage container includes a container unit and a recycling storage unit. The container unit includes a soft part that has softness that folds and bends more easily than plastic or glass and stores a beverage therein, an inlet support part coupled around a beverage outlet at an upper end of the soft part, and a bottom support part coupled to a lower end of the soft part. The recycling storage unit is configured to accommodate and bind the container unit, the recycling storage unit having a multi-stage overlapping structure in which an overall height is reduced depending on a degree of reduced amount of the beverage contained in the container unit.

A bottle enclosure for holding a longneck bottle having a top, neck, shoulder, and main body. The bottle enclosure can include an upper portion configured to fit around the neck, shoulder, and main body of the longneck bottle, a cap removably coupled to an upper end of the upper portion and configured to fit over the top of the longneck bottle, and a base portion removably coupled to a bottom end of the upper portion. An elastomeric component can be arranged on an interior surface of one or both of the upper portion or the base portion.

A container lid and a container are provided. A container lid for sleeving on a drink bottle, comprising an annulus-shaped lid body and a flexible snap ring, and the lid body includes a pilot hole, which penetrates through the lid body; the flexible snap ring comprises an assembly portion and a clamping portion, wherein the assembly portion encircles around an outer surface of the lid body, and a part of the flexible snap ring is extended along a radial direction of the lid body to define the clamping portion, and the clamping portion is capable of penetrating through the pilot hole from the outer surface of the lid body, and abutting against an outer surface of the drink bottle.

A coating composition for a food or beverage container, the coating composition comprising an additive being operable to disrupt the chromophore of a colourant, upon absorption of the said colourant into the cured coating composition.

Disclosed herein are glass pharmaceutical vials having sidewalls of reduced thickness. In embodiments, the glass pharmaceutical vial may include a glass body comprising a sidewall enclosing an interior volume. An outer diameter D of the glass body is equal to a diameter d1 of a glass vial of size X as defined by ISO 8362-1, wherein X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1. However, the sidewall of the glass pharmaceutical vial comprises an average wall thickness T.sub.i that is less than or equal to 0.85*s.sub.1, wherein s.sub.1 is a wall thickness of the glass vial of size X as defined by ISO 8362-1 and X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1.

The present invention provides a heat shrinkable multilayer film that can prevent wrinkles or loosening after attachment when the film is attached to a container as a heat shrinkable label for dry heat shrinking, and a heat shrinkable label including the heat shrinkable multilayer film as a base film. Provided is a heat shrinkable multilayer film including: front and back layers each containing a polyester resin; and an interlayer containing a polystyrene resin, wherein the heat shrinkable multilayer film has a dimensional change in a TD represented by an equation (1) of −55 to −1000 μm as measured by thermomechanical analysis (TMA) in which the temperature of the heat shrinkable multilayer film under a load of 0.10 N is increased from 30° C. to 60° C. at a temperature increase rate of 5° C./min and then cooled from 60° C. to 10° C. at a temperature decrease rate of 5° C./min, the equation (1) being: Dimensional change=dimension in TD at 20° C. −dimension in TD at 60° C. (1).

A foldable beverage shade is made from a fabric sheet having a bottom edge, side edges and a curved top edge, a first and a second spreader element, and a circular coaster element with a thickness less than one-half inch, a diameter greater than two inches but less than six inches, and a cylindrical outer surface. The spreader elements may be rotated and engaged in pockets to spread the fabric sheet into a shade.

A foldable beverage shade is made from a fabric sheet having a bottom edge, side edges and a curved top edge, a first and a second spreader element, and a circular coaster element with a thickness less than one-half inch, a diameter greater than two inches but less than six inches, and a cylindrical outer surface. The spreader elements may be rotated and engaged in pockets to spread the fabric sheet into a shade.