Package

The invention claimed is: 1. A package comprising a container including a vessel formed to include a product-storage region and a casing made of an expansible elastic material and coupled to the vessel to lie in a position exposed to temperature and pressure extant in the product-storage region, the casing joined to an exterior of the vessel by injection molding, a lid coupled to a brim of the container to close an aperture opening into the product-storage region and form a variable-volume interior chamber between the container and the lid, wherein the casing is mounted for movement relative to the vessel without bursting to increase volume of the variable-volume interior chamber in response to an increase in pressure in the variable-volume interior chamber during exposure of the package to elevated retort temperatures, wherein the vessel includes a side panel arranged to connect to the brim and formed to include a window arranged to extend through the side panel and open into the product-storage region, wherein the casing is arranged to cover the window to allow movement of portions of the casing relative to the side panel during a change in pressure in the variable-volume interior chamber, wherein the casing is in direct communication with the changes in pressure in the interior of the chamber via the window, and wherein each of the casing and the vessel are arranged to be in direct contact with a product in the product-storage region. 2. The package of claim 1 , wherein a bottom panel of the vessel is formed to include a plurality of apertures that extend through the bottom panel and open into the product-storage region and a base of the casing covers the apertures formed in the bottom panel of the vessel. 3. The package of claim 1 , wherein the casing includes a sleeve arranged to lie alongside the side panel of the vessel to cover the window and a base coupled to a lower end of the sleeve to lie alongside a bottom panel of the vessel. 4. The package of claim 3 , wherein the sleeve and the base cooperate to form a monolithic casing. 5. The package of claim 3 , wherein the sleeve and base of the casing cooperate with the side and bottom panels of the vessel and are configured for receiving and holding liquid and solid materials. 6. The package of claim 1 , wherein a bottom panel of the vessel is made of an elastic deformable material and is configured for yielding elastically during exposure of an inner surface of the bottom panel of the vessel to an elevated pressure in excess of a predetermined pressure that is extant in the variable-volume interior chamber when the lid is hermetically sealed to the brim of the vessel to cause shape-changing movement of the bottom panel of the vessel from a selected pre-expansion shape in a direction away from the lid to an outwardly extending inflated shape to cause the variable-volume interior chamber to increase in volume without any discharge of fluid from the variable-volume interior chamber to surroundings outside the variable-volume interior chamber and then contracting to assume a contracted shape in response to cooling of the variable-volume interior chamber. 7. The package of claim 6 , wherein the bottom panel of the vessel is bowed inwardly toward the lid when moved to assume the selected pre-expansion shape of the bottom panel. 8. The package of claim 6 , wherein a base of the casing is coupled to a lower end of a sleeve and arranged to mate with an underside of the bottom panel of the vessel and move with the bottom panel during shape-changing movement of the bottom panel relative to the side panel. 9. The package of claim 1 , wherein the brim is endless, arranged to extend around a vertical central axis of the vessel, and arranged to lie in spaced-apart relation to the floor and the side panel is formed to include a series of windows arranged to lie in spaced-apart relation to one another about the vertical central axis of the vessel. 10. The package of claim 9 , wherein a sleeve of the casing is configured to provide an oxygen-barrier shield to block flow of oxygen from the surroundings outside the vessel into the product-storage region through the side panel of the vessel. 11. The package of claim 9 , wherein the sleeve of the casing is made of an expansible elastic material and is configured to move from a pre-expansion shape to an inflated shape extending outwardly away from the vertical central axis with relatively greater outwardly extending bulges corresponding to each of the windows in response to an increase in pressure in the variable-volume interior chamber. 12. The package of claim 1 , wherein the casing is made of a stretchable film. 13. A package comprising a container including a vessel formed to include a product-storage region and a casing made of an expansible elastic material and coupled to the vessel to lie in a position exposed to temperature and pressure extant in the product-storage region, the casing joined to an exterior of the vessel by injection molding, a lid coupled to a brim of the container to close an aperture opening into the product-storage region and form a variable-volume interior chamber between the container and the lid, wherein the casing is mounted for movement relative to the vessel without bursting to change a volume of the variable-volume interior chamber in response to a change in pressure in the variable-volume interior chamber during exposure of the package to a change in temperature surrounding the package during retort sterilization, wherein the casing is in direct communication with the changes in pressure in the interior of the chamber and wherein each of the casing and the vessel are arranged to be in direct contact with a product in the product-storage region. 14. The package of claim 13 , wherein the change in pressure is an increase in pressure which increases the volume of the variable-volume interior chamber. 15. The package of claim 14 , wherein the brim is endless, arranged to extend around a vertical central axis of the vessel, and arranged to lie in spaced-apart relation to a floor, a side panel is formed to interconnect the brim and the floor and includes a series of windows arranged to lie in spaced-apart relation to one another about the vertical central axis of the vessel, and the sleeve of the casing is made of an expansible elastic material and is configured to move from a pre-expansion shape to an inflated shape extending outwardly away from the vertical central axis with relatively greater outwardly extending bulges corresponding to each of the windows in response to an increase in pressure in the variable-volume interior chamber. 16. The package of claim 15 , wherein portions of the lid are made of the expansible elastic material. 17. The package of claim 13 , wherein the change in the environment surrounding the package is an increase in temperature which causes an increase in the volume of the variable volume interior chamber. 18. The package of claim 13 , wherein the change in pressure is a decrease in pressure which decreases the volume of the variable-volume interior chamber. 19. The package of claim 13 , wherein the change in the environment surrounding the package is a decrease in temperature which causes a decrease in the volume of the variable volume interior chamber.