High-temperature, high-pressure vacuum relay

What is claimed is: 1. A relay assembly, comprising: a switch body including a substantially cylindrical housing to house a coil and other internal switching components, wherein the switch body includes: a flange extending orthogonally from a portion of the housing, and multiple leads extending from an end of the cylindrical housing; a substantially cylindrical adaptor sleeve with one or more openings in a wall of the sleeve, wherein a first end of the adaptor sleeve encircles at least a portion of the switch body and is attached to the flange; a feed-through base, attached to a second end of the adaptor sleeve to enclose the second end of the adaptor sleeve, wherein the feed-through base includes: multiple holes through which conductors extend from inside the adaptor sleeve to outside the adaptor sleeve, multiple contacts, inside the adaptor sleeve, joining each conductor to one of the multiple leads, and multiple insulators, adjacent to each of the multiple holes, through which each conductor extends, wherein the flange, the adaptor sleeve, and the feed-through base form an envelope around the portion of the housing, the multiple contacts, and the multiple leads; and a resin encapsulating the portion of the housing, the multiple contacts, and the multiple leads within the envelope. 2. The relay assembly of claim 1 , wherein the resin includes a thermoplastic polytherimide resin. 3. The relay assembly of claim 1 , wherein the relay assembly is configured to remain operational at an atmospheric pressure of at least 25,000 pounds per square inch (PSI). 4. The relay assembly of claim 1 , wherein the relay assembly remains operational at a temperature of up to 200° C. 5. The relay assembly of claim 1 , wherein the resin further encapsulates a portion of each conductor. 6. The relay assembly of claim 1 , wherein the resin encapsulating the portion of the housing, the multiple contacts, and the multiple leads is free of voids within the envelope. 7. The relay assembly of claim 1 , wherein the adaptor sleeve consists of a stainless steel. 8. The relay assembly of claim 1 , wherein the feed-through base includes a stainless steel disc joined to the second end of the adaptor sleeve. 9. The relay assembly of claim 8 , wherein the multiple insulators include a ceramic material brazed to the stainless steel disc. 10. The relay assembly of claim 1 , wherein each of the multiple contacts are configured to have a wiping fit on one of the multiple leads. 11. The relay assembly of claim 1 , further comprising: an enclosure that surrounds the switch body, the adaptor sleeve, and the feed-through base, wherein the enclosure forms an envelope around the feed-through base; and a thermoset polymer that encapsulates the switch body, the adaptor sleeve, and the feed-through base. 12. A reinforcing sheath for a high-voltage relay switch, comprising: a substantially cylindrical adaptor sleeve with one or more openings in a wall of the sleeve, wherein a first end of the adaptor sleeve has a diameter sized to encircle at least a portion of the high-voltage relay switch and attach to a flange of the high-voltage relay switch; and a feed-through base, attached to a second end of the adaptor sleeve to enclose the second end of the adaptor sleeve, wherein the feed-through base includes: multiple holes through which conductors extend from inside the adaptor sleeve to outside the adaptor sleeve, multiple contacts, inside the adaptor sleeve, joining each conductor to one of multiple leads extending from the high-voltage relay switch, and multiple insulators, adjacent to each of the multiple holes, through which each conductor extends, wherein the reinforcing sheath, when attached to the flange, forms an envelope around the portion of the high-voltage relay switch, the multiple contacts, and the multiple leads, and wherein the envelope provides an area to encapsulate the portion of the relay switch, the multiple contacts, and the multiple leads in an epoxy resin within the envelope. 13. The reinforcing sheath of claim 12 , wherein the epoxy resin includes a thermoplastic polytherimide resin. 14. The reinforcing sheath of claim 13 , wherein the reinforcing sheath and the epoxy resin protect the high-voltage relay switch so as to remain operational at an atmospheric pressure of 25,000 pounds per square inch (PSI). 15. The reinforcing sheath of claim 12 , wherein the resin further encapsulates a portion of each conductor. 16. The reinforcing sheath of claim 12 , wherein the adaptor sleeve consists of a stainless steel. 17. The reinforcing sheath of claim 12 , wherein the feed-through base includes a stainless steel disc joined to the second end of the adaptor sleeve. 18. The reinforcing sheath of claim 17 , wherein the multiple insulators include a ceramic material brazed to the stainless steel disc. 19. A method, comprising: providing a standard high-voltage relay switch for a desired voltage rating; replacing a coil assembly of the standard high-voltage relay switch with a high-temperature-resistant coil assembly; providing a reinforcing sheath assembly sized for the standard high-voltage relay switch; connecting leads from the standard high-voltage relay switch to contacts in the reinforcing sheath assembly; attaching the sheath assembly over a portion of the standard high-voltage relay switch to form an envelope between an interior of the sheath assembly and the high-temperature-resistant coil assembly; and injecting, through an aperture in the sheath assembly, a high-temperature-resistant, high-pressure-resistant epoxy resin to encapsulate the high-temperature-resistant coil assembly, the leads, and the contacts. 20. The method of claim 19 , further comprising: providing an enclosure that surrounds the standard high-voltage relay switch and the sheath assembly, wherein the enclosure forms another envelope around the standard high-voltage relay switch and the sheath assembly; connecting, to the contacts in the reinforcing sheath assembly, wires that protrude through the enclosure; and injecting, through an opening in the enclosure and into the other envelope, resin for a thermoset polymer that encapsulates the standard high-voltage relay switch and the sheath assembly.