A polymer composition containing cellulose acetate in combination with one or more bio-based polymers is described. The polymer composition can optionally also contain a plasticizer. The polymer composition is formulated so as to have properties similar to petroleum-based polymers for producing, for example, single-use biodegradable articles.

An article that is made of a hard metal, yet is superior in design on the surface, particularly a metal article that allows aging impression of the color tone to be enjoyed is produced or provided. Such an article is provided by a method for producing an article superior in design, including molding and/or processing a copper alloy into a designed article, and subjecting a surface of the article to an etching treatment to allow a crystalline structure of the copper alloy to become visibly recognizable.

One embodiment of an apparatus having plurality of stands includes a central stand member 3600H at middle; a plurality of peripheral stand members including a plurality of peripheral stand members wherein each peripheral stand member 3700A further including a horizontally elongated stand 3701A fastened to the central stand member 3600H, and a plurality of peripheral stand members wherein each peripheral stand member 3716 further including the horizontally curved stand 3717 mounted between and fastened to one peripheral stand member 3700A at left and other peripheral stand member 3700A at right; and an electrical system 3800D being installed in the central stand member 3600H and in each peripheral stand member 3700A of the plurality of peripheral stand members for lighting plurality of light bulbs being mounted on plurality of peripheral stand members and for operating water fountain on top of the central stand member 3600H. Other embodiments are described and shown.

A glass container has a container main body made of glass and a coating film formed on a surface of the container main body. The coating film is made of tin oxide or titanium oxide, and the film thickness of the coating film ranges from 40 nm to 50 nm. In the depth profile obtained by X-ray photoelectron spectroscopy (XPS) analysis, an atomic percentage of sodium at a point where a tin or titanium profile intersects a silicon profile is 2% or less.

A glass container has a container main body made of glass and a coating film formed on a surface of the container main body. The coating film is made of tin oxide or titanium oxide, and the film thickness of the coating film ranges from 40 nm to 50 nm. In the depth profile obtained by X-ray photoelectron spectroscopy (XPS) analysis, an atomic percentage of sodium at a point where a tin or titanium profile intersects a silicon profile is 2% or less.

A beverageware includes a container adapted to contain liquid, a base, a leg supporting the container and resting on the base, and a handle disposed in the middle of the container. The container includes a horizontal segment and two vertical segments extending away in the same direction from two opposite ends of the horizontal segment. The container includes a cavity running through the horizontal segment and the two vertical segments. The two vertical segments provide two outlets respectively, the handle extends away from the horizontal segment and is disposed between the two vertical segments.

There is provided a drinking or eating vessel comprising an inner surface that defines a volume for receiving liquid or solid food and an outer surface that supports a polymeric coating and a decorative layer; wherein the polymeric coating comprises a polymer formed by curing a coating mixture on the outer surface of the drinking or eating vessel, said coating mixture comprising a matting agent; wherein the polymeric coating has an inner surface in contact with the drinking or eating vessel and an outer surface exposed to contact by a user of the vessel; and wherein the decorative layer forms a diffuse layer within the polymeric coating. Also provided are corresponding processes for producing the drinking or eating vessel.

There is provided a drinking or eating vessel comprising an inner surface that defines a volume for receiving liquid or solid food and an outer surface that supports a polymeric coating and a decorative layer; wherein the polymeric coating comprises a polymer formed by curing a coating mixture on the outer surface of the drinking or eating vessel, said coating mixture comprising a matting agent; wherein the polymeric coating has an inner surface in contact with the drinking or eating vessel and an outer surface exposed to contact by a user of the vessel; and wherein the decorative layer forms a diffuse layer within the polymeric coating. Also provided are corresponding processes for producing the drinking or eating vessel.

A method of preparing and serving a meal package (10) comprising the steps of: preparing a meal package(10), including:disposing a food product (16, 17) into a container (11), the container (11) having an opening defining therein a volume for receiving the food product(16, 17); and sealing the container by securing a film (12) over or around the container (11);heating the meal package (10) in a microwave oven; removing the film from the container; serving the heated food product in the container; cleaning the used container after the food product has been consumed; and repeating the above steps for the used container.

An example disposable food service tray that can withstand high heat is disclosed. The disposable food tray includes a first layer comprising paper board, and a second layer comprising polyethylene terephthalate (PET) affixed to the first layer, wherein an adhesion between the first layer and the second layer is configured to withstand a temperature of up to 525 degrees Fahrenheit for up to six minutes without blistering.