Seal ring and associated method

What is claimed is: 1. A seal ring for an energy storage device that includes a first electrode, a second electrode, a case, and a cap, the seal ring comprising: a weldable first portion and a weldable second portion that are electrically isolated from each other by an electrically insulating third portion comprising alumina disposed therebetween, wherein the weldable first portion is configured to be in direct contact with the first electrode of the energy storage device and the weldable second portion is configured to be in direct contact with the second electrode of the energy storage device, wherein at least one of the weldable first portion and the weldable second portion comprises a cermet, and wherein the weldable first portion is weldable to an inner surface of a housing of the energy storage device and the weldable second portion is weldable to a cap of the energy storage device. 2. A seal ring according to claim 1 , wherein the cermet comprises a ceramic material selected from a group consisting of alumina, silica, yttria, and ytterbia. 3. A seal ring according to claim 1 , wherein the cermet comprises at least one refractory metal. 4. A seal ring according to claim 3 , wherein the refractory metal comprises one or more of molybdenum, rhenium, tantalum, or tungsten. 5. A seal ring according to claim 3 , wherein at least one of the weldable first portion and the weldable second portion comprises at least one of nickel, iron, or chromium. 6. A seal ring according to claim 3 , wherein an amount of the refractory metal in the cermet material is in a range of from about 5 volume percent to about 50 volume percent. 7. A seal ring according to claim 3 , wherein an amount of the refractory metal in the cermet material is in a range of from about 51 volume percent to about 100 volume percent. 8. A seal ring according to claim 1 , wherein the electrically insulating third portion comprises alumina having a dielectric strength of more than 9 at 1 megahertz. 9. A seal ring according to claim 1 , further comprising: a double prime beta alumina separator configured to be placed inside a volume of the housing to create an anode compartment and a cathode compartment; a fourth portion of an alumina-based material having coefficient of thermal expansion that is within 10 percent of the coefficient of thermal expansion of double prime beta alumina separator. 10. A seal ring according to claim 9 , wherein the fourth portion is secured to the double prime beta alumina separator, and the weldable first portion, the weldable second portion, the electrically insulating third portion and the fourth portion oriented relative to each other to minimize thermal stresses during operation and heating of the seal ring. 11. A seal ring according to claim 1 , further comprising: a housing weld structure disposed between the weldable first portion and the housing; and a cap weld structure disposed between the weldable second portion and the cap. 12. A seal ring according to claim 1 , wherein a metal content of the weldable first portion and the weldable second portion are different. 13. A seal ring according to claim 2 , wherein the alumina is in the form of single crystal sapphire or micrograin polycrystalline alumina. 14. A seal ring according to claim 1 , wherein the ceramic material consists essentially of only one of yttrium-aluminum-garnet or ytterbium-aluminum-garnet. 15. A seal ring according to claim 1 , wherein the cermet is a unidirectional functionally graded cermet. 16. A seal ring according to claim 1 , wherein the cermet is a bi-directional functionally graded cermet.