The present invention is directed to a TEE Probe container configured for receiving a TEE Probe, the container comprising a first container surface and an opposing second container surface. In some instances, the container further comprises one or more depressions positioned on the first surface configured for receiving the TEE probe. The TEE probe container further comprises a planar lid configured to removably enclose the first container surface of the container.

A multi-component package is provided which enables simultaneous heat cooking of a food product which does not require a long cooking time and a food product which requires a longer cooking time. The multi-component package includes a lower container including a bottomed, lower container main body for containing a first food product. The container further includes an upper container including an upper container main body for containing a second filled food product. A flange of the lower container main body and a flange of the upper container main body are engaged with each other so that the lower container and the upper container are combined integrally. A vapor vent is provided in a lower container lid material, whereby water vapor generated upon heating of the first food product heats the second food product in the upper container.

A container, comprising a container body and a container cover frame which are injection molded as a whole. The container body and the container cover frame are connected by means of breaking points; during sealing, the container body and the container cover frame are separated during the process of covering the container cover frame with a container cover film. The material cost is reduced, and the container can be used for multiple times; the provision of an anti-opening member on the container cover frame can prevent opening and avoid secondary sealing; by providing a sealing structure on the container body and the container cover frame, the container has a good sealing effect when reused for multiple times.

Embodiments of the invention overcome the shortcomings of prior technologies by infusing nanocellulose in a fibrillated form to enhance the properties of cellulose pulp. These properties may include, for example, the mechanical and barrier properties, i.e., tensile strength, liquid, and gas impermeability such as oxygen, carbon dioxide, and oil, can be improved substantially. Another embodiment of the invention further provide a fibrillated cellulose composite material that include properties of being a strength-enhancing agent, an oligomer, carboxylic acid, plasticizer, an antimicrobial agent, water repellant, oil repellant, and/or a transparent composite.

A container, comprising a container body and a container cover frame which are injection molded as a whole. The container body and the container cover frame are connected by means of breaking points; during sealing, the container body and the container cover frame are separated during the process of covering the container cover frame with a container cover film. The material cost is reduced, and the container can be used for multiple times; the provision of an anti-opening member on the container cover frame can prevent opening and avoid secondary sealing; by providing a sealing structure on the container body and the container cover frame, the container has a good sealing effect when reused for multiple times.

Disposable containers for storing contents, such as food products. The containers include a cover material disposed about a periphery or an outer surface of the container in a folded configuration and deployed, when pulled out by a user, in an amount and shape sufficient to cover at least the opened periphery of the container.

Inhibiting spoilage of items is achieved by providing a container having an environmentally controlled storage compartment sealed form the external atmosphere and a reaction medium in a separate compartment in fluid communication with the storage compartment.

A substantially crimpless and monolithic paperboard container lid and method of making same is provided. The lid comprises a single contiguous molded paperboard body configured to conformingly couple to a top periphery of a container for covering the container's opening. The body includes a sealing ring located adjacent the body's periphery. The sealing ring includes a sealing channel composed of a radiused cross-section that extends to a tangent ring terminating with a tab ring. The radiused cross-section and tangent ring assist providing a snug fit between the lid and the container. Despite being made from paperboard, the lid does not include one or more substantial crimps in the sealing ring. Having no substantial crimps, the lid fits onto the container and prevents fluid from leaking between the container's periphery and the lid.

Inhibiting spoilage of items is achieved by providing a container having an environmentally controlled storage compartment sealed form the external atmosphere and a reaction medium in a separate compartment in fluid communication with the storage compartment.