Fluid-filled chamber with a tensile element

The invention claimed is: 1. A fluid-filled chamber comprising: a barrier formed of a polymer material that defines an interior void, the barrier having: a first portion that forms a first surface of the chamber, a second portion located opposite the first portion and forming a second surface of the chamber, and a sidewall portion that extends between the first portion and the second portion to form a sidewall surface of the chamber; a tensile element formed from a single-layer sheet of material, located within the interior void, and including a first side and a second side located on an opposite side of the same single-layer sheet of material than the first side, the tensile element being spaced inward from the sidewall portion and being (a) secured to the first portion of the barrier at the first side in a plurality of discrete first bond areas and (b) secured to the second portion of the barrier at the second side in a plurality of discrete second bond areas, and each of the first bond areas and second bond areas being substantially surrounded by unbonded portions of the tensile element; a first bond inhibitor disposed adjacent to the first portion of the barrier and between the first portion and the tensile element, the first bond inhibitor being formed from a sheet of material and including a plurality of first apertures formed therethrough at the first bond areas; and a second bond inhibitor disposed adjacent to the second portion of the barrier and between the second portion and the tensile element, the second bond inhibitor being formed from a sheet of material and including a plurality of second apertures formed therethrough at the second bond areas. 2. The chamber recited in claim 1 , wherein first indentations are formed at the second side of the sheet of material at the locations of the first bond areas and second indentations are formed at the first side of the sheet of material at the locations of the second bond areas. 3. The chamber recited in claim 1 , wherein the tensile element includes a textile material. 4. The chamber recited in claim 3 , wherein the textile material stretches at least thirty percent prior to tensile failure. 5. The chamber recited in claim 1 , wherein the tensile element includes a polymer material. 6. The chamber recited in claim 1 , wherein the tensile element includes a plurality of apertures between the first bond areas and the second bond areas. 7. The chamber recited in claim 1 , wherein thermal bonds join the first bond areas to the barrier. 8. The chamber recited in claim 1 , wherein the first bond areas are offset from the second bond areas. 9. The chamber recited in claim 1 , wherein the first bond areas have a configuration of a regularly-repeating pattern. 10. The chamber recited in claim 1 , wherein the first bond areas have a configuration of a plurality of rows and a plurality of columns. 11. The chamber recited in claim 1 , wherein the first bond areas comprise less than thirty percent of an area of the first portion of the barrier. 12. The chamber recited in claim 1 , wherein the tensile element includes two first bond areas that are nearest neighbors across the tensile element. 13. The chamber recited in claim 1 , wherein the tensile element extends through the plurality of first apertures at the first bond areas and extends through the plurality of second apertures at the second bond areas. 14. The chamber recited in claim 1 , further including a pressurized fluid located within the interior void, the pressurized fluid placing areas of the tensile element located between the first bond areas and the second bond areas in tension. 15. A fluid-filled chamber comprising: a barrier formed of a polymer material that defines an interior void, the barrier having: a first portion that forms a first surface of the chamber, a second portion located opposite the first portion and forming a second surface of the chamber, and a sidewall portion that extends between the first portion and the second portion to form a sidewall surface of the chamber; a tensile layer located within the interior void, the tensile layer being spaced inward from the sidewall portion and having a configuration of a single-layer sheet that is secured to (a) the first portion of the barrier in a plurality of first bond areas and (b) the second portion of the barrier in a plurality of second bond areas, each of the first bond areas and second bond areas being spaced from the other first bond areas and second bond areas along both a length and a width of the tensile layer and being formed on opposite sides of the same single-layer sheet; a first bond inhibitor disposed adjacent to the first portion of the barrier and between the first portion and the tensile layer, the first bond inhibitor being formed from a sheet of material and including a plurality of first apertures formed therethrough at the first bond areas; and a second bond inhibitor disposed adjacent to the second portion of the barrier and between the second portion and the tensile layer, the second bond inhibitor being formed from a sheet of material and including a plurality of second apertures formed therethrough at the second bond areas. 16. The chamber recited in claim 15 , wherein the tensile layer includes a plurality of apertures between the first bond areas and the second bond areas. 17. The chamber recited in claim 15 , wherein the tensile layer includes two first bond areas that are nearest neighbors across the tensile layer. 18. The chamber recited in claim 15 , wherein thermal bonds join the first bond areas to the first portion of the barrier. 19. The chamber recited in claim 15 , wherein the first bond areas are offset from the second bond areas. 20. The chamber recited in claim 15 , wherein the first bond areas have a configuration of a regularly-repeating pattern. 21. The chamber recited in claim 20 , wherein the regularly-repeating pattern has at least three rows extending along the width and at least three columns extending along the length. 22. The chamber recited in claim 15 , wherein the plurality of first bond areas is interspersed with the plurality of second bond areas in both a first direction and a second direction. 23. A fluid-filled chamber comprising: a barrier formed of a polymer material that defines an interior void; a bond inhibitor located adjacent to an inner surface of the barrier and having a first plurality of apertures, the bond inhibitor being formed from a sheet of material; an additional bond inhibitor located adjacent to an additional inner surface, the additional bond inhibitor formed from a sheet of material and including a second plurality of apertures; a tensile layer formed from a single-layer sheet of material and located within the interior void between the bond inhibitor and the additional bond inhibitor, the tensile layer being spaced inward from a periphery of the barrier, being secured to the barrier at a plurality of bonded areas, extending through the first plurality of apertures and the second plurality of apertures at the plurality of bonded areas, and having an unbonded area substantially surrounding each of the bonded areas, the plurality of bonded areas including first bonded areas and second bonded areas that are formed on opposite sides of the same single-layer sheet of the tensile layer; and a fluid located within the interior void, the fluid being pressurized to place the unbonded area of the tensile ele