X-ray tube casing with integral heat exchanger

What is claimed is: 1. An x-ray tube casing for an x-ray tube insert, the casing comprising: a housing adapted to receive at least a portion of the x-ray tube insert therein; a heat exchanger including a number of fluid flow passages, the heat exchanger formed on an exterior surface of the housing; and a fluid expansion bellows disposed within the housing. 2. The x-ray tube casing of claim 1 wherein the number of fluid flow passages include first fluid flow passages and second fluid flow passages. 3. The x-ray tube casing of claim 2 wherein first fluid flow passages and the second fluid flow passages are countercurrent to one another. 4. The x-ray tube casing of claim 2 wherein the first fluid flow passages and the second fluid flow passages have different dimensions. 5. The x-ray tube casing of claim 2 wherein one of the first or second fluid flow passages is in fluid communication with an interior space of the housing. 6. The x-ray tube casing of claim 1 further comprising a fluid distribution manifold disposed within an interior of the housing. 7. The x-ray tube casing of claim 6 wherein the manifold is integrally formed with the housing. 8. The x-ray tube casing of claim 1 wherein the housing includes an oil pump chamber formed on the exterior of the housing. 9. The x-ray tube casing of claim 8 wherein the oil pump housing is fluid communication with the number of fluid passages in the heat exchanger. 10. The x-ray tube of claim 1 wherein the bellows includes a peripheral sealing bead engaged with the housing. 11. The x-ray tube casing of claim 1 wherein the housing is formed in a direct metal laser melting additive manufacturing process. 12. The x-ray tube casing of claim 1 , wherein the housing comprises: a mid casing within which at least a part of the x-ray tube insert is disposed; and an end casing secured to the mid casing within which at least a portion of the x-ray tube insert is disposed, the end casing including the heat exchanger having a number of fluid flow passages formed on an exterior surface of the end casing. 13. An x-ray tube comprising: an x-ray tube insert; and an x-ray tube casing including a housing formed in an additive manufacturing process and within which the x-ray tube insert is placed, the housing including a side wall and a heat exchanger formed on an exterior of the side wall; wherein the heat exchanger comprises: a first internal passage having an inlet and an outlet, wherein the first internal passage is not in fluid communication with an interior space defined by the housing; and a second internal passage having an inlet and an outlet, wherein the second internal passage is in fluid communication with the interior space defined by the housing. 14. The x-ray tube of claim 13 wherein the housing includes a fluid distribution manifold disposed within an interior space defined by the housing. 15. The x-ray tube of claim 13 wherein the housing includes a fluid expansion bellows disposed over one end of the housing. 16. The x-ray tube of claim 13 wherein the housing comprises: a mid casing within which at least a part of the x-ray tube insert is disposed; and an end casing secured to the mid casing within which at least a portion of the x-ray tube insert is disposed, the end casing including the heat exchanger having a number of fluid flow passages formed on an exterior of a side wall of the end casing. 17. A method for exchanging heat from a cooling fluid disposed within an x-ray tube, the method comprising the steps of: additively manufacturing an x-ray tube casing including a housing having a heat exchanger formed on an exterior surface of a side wall of the housing, the heat exchanger including at least one passage in communication with an interior space defined by the housing; placing an x-ray tube insert within the interior space defined by the central frame; placing an amount of cooling fluid in the interior space between the x-ray tube insert and the housing; and directing a flow of the cooling fluid through the at least one passage to exchange heat from the cooling fluid wherein the housing includes a fluid distribution manifold disposed within the interior of the housing. 18. The method of claim 17 further comprising the step of directing the cooling fluid to various areas of the interior of the housing through the manifold after directing the flow of cooling fluid through the at least one passage. 19. An x-ray tube casing for an x-ray tube insert, the casing comprising: a housing adapted to receive at least a portion of the x-ray tube insert therein; a heat exchanger including a number of fluid flow passages, the heat exchanger formed on an exterior surface of the housing; wherein the number of fluid flow passages include first fluid flow passages and second fluid flow passages; and wherein first fluid flow passages and the second fluid flow passages are countercurrent to one another. 20. An x-ray tube casing for an x-ray tube insert, the casing comprising: a housing adapted to receive at least a portion of the x-ray tube insert therein; a heat exchanger including a number of fluid flow passages, the heat exchanger formed on an exterior surface of the housing; and wherein the housing comprises: a mid casing within which at least a part of the x-ray tube insert is disposed; and an end casing secured to the mid casing within which at least a portion of the x-ray tube insert is disposed, the end casing including the heat exchanger having a number of fluid flow passages formed on an exterior surface of the end casing. 21. An x-ray tube comprising: an x-ray tube insert; and an x-ray tube casing including a housing formed in an additive manufacturing process and within which the x-ray tube insert is placed, the housing including a side wall and a heat exchanger formed on an exterior of the side wall; wherein the housing includes a fluid expansion bellows disposed over one end of the housing.