High temperature secondary torque retention for bolted assemblies

What is claimed is: 1. A fastening assembly for high temperature components comprising: at least two fasteners each having a head with an underside and an elongated shaft extending therefrom and comprising at least one of a refractory metal and a superalloy; and a washer having a body with an upper surface, an opposing lower surface, and defining a first opening and a second opening for receiving therethrough the elongated shafts of the at least two fasteners, wherein the at least two fasteners and the washer are configured to secure a first high temperature material to a second high temperature material by securing the elongated shafts of the at least two fasteners to the first high temperature material, and the upper surface of the washer forms diffusion bonds with the underside of the respective head of the at least two fasteners when the washer and the at least two fasteners are held in contact at temperatures in excess of 500° C. 2. The fastening assembly of claim 1 wherein the first high temperature material is a collector for back scattered electrons in a high energy X-ray tube and the second high temperature material is a heat shield for the insert window of the X-ray tube. 3. The fastening assembly of claim 2 wherein the second high temperature material is graphite. 4. The fastening assembly of claim 3 wherein the first high temperature material comprises molybdenum or a molybdenum alloy. 5. The fastening assembly of claim 1 wherein the at least two fasteners comprise molybdenum or a molybdenum alloy. 6. The fastening assembly of claim 5 wherein the washer comprises nickel or a nickel alloy. 7. The fastening assembly of claim 1 wherein the washer has an area of weakness in a region between a first opening and the second opening configured to facilitate a fracturing of the washer in a region between the two openings when an external torque is applied to at least one of the at least two fasteners. 8. The fastening assembly of claim 7 wherein the at least two fasteners are threaded bolts. 9. The fastening assembly of claim 1 wherein the at least two fasteners are threaded bolts. 10. An assembled structure suitable for use at high temperatures comprising: at least two bolts, each bolt having a head with an underside and an elongated shaft extending from the underside, each bolt comprising at least one of a refractory metal and a superalloy; a washer having a body with an upper surface and an opposing lower surface defining at least a first aperture and a second aperture respectively receiving the shaft of at least the first bolt and the shaft of the second bolt; a first high temperature material into which the at least two bolts have been threaded; and a second high temperature material which has been secured to the first high temperature material by the at least two bolts; wherein the underside of the head of each bolt has mechanically measurably diffusion bonded to the upper surface of the washer. 11. The assembled structure of claim 10 wherein there is no mechanically cognizable diffusion bonding between the bolts and the threads of the first high temperature material into which each bolt is threaded. 12. The assembled structure of claim 10 wherein there is no mechanically cognizable diffusion bonding between the washer and the second high temperature material. 13. The assembled structure of claim 10 wherein the threading of the bolts into the first high temperature material does not cause the elastic compression of the second high temperature material. 14. The assembled structure of claim 10 wherein the structure is suitable for use in a closed vacuum and will not be the source of outgassing which would contaminate the vacuum. 15. The assembled structure of claim 10 wherein the first high temperature material is a collector for back scattered electrons in a high energy X-ray tube, the second high temperature material is a heat shield for the insert window of the X-ray tube and the structure is inside an evacuated insert of an X-ray tube. 16. A process for securing a heat shield for an insert window of a high energy X-ray tube to a collector for back scattered electrons comprising: providing a fastener having a head with a member extending therefrom, the member comprising at least one of a refractory metal and a superalloy; providing a washer having a body with an upper surface and an opposing lower surface which defines at least a first opening for receiving the member of the fastener therethrough; passing the fastener through the first opening of the washer and securing the member by threading the fastener into a first member to form an assembled structure; and subjecting the assembled structure to a high temperature to cause the fastener to diffusion bond to the washer to a mechanically detectable degree. 17. The process of claim 16 wherein: (i) the fastener is a bolt having a head and a threaded elongated member threadably received within a collector, (ii) the washer defines a second opening region to receive an elongated member of a second bolt, the elongated member being threadably received within a second threaded region of the collector, the second bolt being diffusion bonded to the washer, and (iii)each bolt and the collector are constructed of molybdenum or a molybdenum alloy, the heat shield is composed of graphite, the washer is constructed of nickel or a nickel alloy and retain the diffusion bond at temperatures over 500° C.