Integral bellows for oilfield equipment

What is claimed is: 1. A bellows assembly for a downhole tool, the bellows assembly comprising: a first seal ring; a second seal ring; and a bellows positioned at least partially between the first and second seal rings, wherein the first seal ring, the second seal ring, and the bellows are integral with one another such that the bellows assembly is monolithic, wherein the bellows is configured to expand and retract, wherein the bellows is annular and has a diameter that varies over a length of the bellows, and wherein the bellows is shaped as a wave form along the length, the wave form including: an inner curved portion; an outer curved portion; and an intermediate portion coupling the inner and outer curved portions; the inner and outer curved portions are made from a shape-memory alloy; and the intermediate portion is made from a non-shape-memory alloy. 2. The bellows assembly of claim 1 , wherein the first seal ring is annular and comprises an inner surface with a first recess defined therein, wherein the inner surface of the first seal ring is configured to contact an outer surface of a first tubular member, and further comprising a first sealing member positioned at least partially within the first recess, wherein the first sealing member is configured to provide a fluid-tight seal between the inner surface of the first seal ring and the outer surface of the first tubular member. 3. The bellows assembly of claim 2 , wherein the second seal ring is annular and comprises an outer surface with a second recess defined therein, wherein the outer surface of the second seal ring is configured to contact an inner surface of a second tubular member, and further comprising a second sealing member positioned at least partially within the second recess, wherein the second sealing member is configured to provide a fluid-tight seal between the outer surface of the second seal ring and the inner surface of the second tubular member. 4. The bellows assembly of claim 1 , wherein the bellows is not welded to the first and second seal rings. 5. The bellows assembly of claim 1 , wherein a material composition of the intermediate portion comprises cobalt, nickel, iron, chromium, titanium, an alloy doped with one or more of chromium, vanadium, copper, hafnium, palladium, platinum, zirconium, or cobalt, or a combination thereof. 6. The bellows assembly of claim 1 , wherein the bellows comprises an inner surface and an outer surface, and wherein a thickness between the inner and outer surfaces varies over the length of the bellows. 7. The bellows assembly of claim 6 , wherein the bellows comprises a sinewave shape and an intermediate portion, and wherein a thickness of the inner and outer curved portions is different than a thickness of the intermediate portion. 8. The bellows assembly of claim 7 , wherein the thickness of the inner and outer curved portions is greater than the thickness of the intermediate portion. 9. The bellows assembly of claim 1 , wherein a stiffness of the bellows is variable and non-linear over the length of the bellows. 10. A method for manufacturing a bellows assembly, the method comprising: determining a load that the bellows assembly is configured to experience; determining a number of cycles that the bellows assembly is configured to experience; determining a thickness of a bellows of the bellows assembly based at least partially upon the load and the number of cycles; determining a material composition of the bellows based at least partially upon the load and the number of cycles, wherein the material composition varies over a length of the bellows; and manufacturing the bellows assembly via an additive manufacturing process, wherein the bellows assembly is manufactured based at least partially upon the thickness and the material composition, wherein the bellows assembly comprises: a first seal ring; a second seal ring; and a bellows positioned at least partially between the first and second seal rings, wherein the first seal ring, the second seal ring, and the bellows are integral with one another such that the bellows assembly is monolithic, wherein the bellows is configured to expand and retract, wherein the bellows is annular and has a diameter that varies over a length of the bellows, and wherein the bellows is shaped as a wave form along the length, the wave form including: an inner curved portion; an outer curved portion; and an intermediate portion coupling the inner and outer curved portions; the inner and outer curved portions are made from a shape-memory alloy; and the intermediate portion is made from a non-shape-memory alloy. 11. The method of claim 10 , wherein the thickness varies over the length of the bellows. 12. The method of claim 11 , wherein a thickness of the inner and outer curved portions is different than a thickness of the intermediate portion. 13. The method of claim 12 , wherein the thickness of the inner and outer curved portions is greater than the thickness of the intermediate portion. 14. The method of claim 10 , wherein the bellows is not welded to the first and second seal rings. 15. The method of claim 10 , wherein a material composition of the intermediate portion comprises cobalt, nickel, iron, chromium, titanium, an alloy doped with one or more of chromium, vanadium, copper, hafnium, palladium, platinum, zirconium, or cobalt, or a combination thereof. 16. The method of claim 10 , further comprising testing the bellows assembly after the bellows assembly is manufactured, wherein testing the bellows assembly comprises applying a test force to the bellows assembly for a number of test cycles. 17. The method of claim 16 , further comprising measuring one or more characteristics of the bellows assembly in response to the testing, wherein the one or more characteristics comprise a deflection of the bellows assembly, a spring rate of the bellows assembly, a maximum von mises stress on the bellows assembly, or a combination thereof. 18. The method of claim 17 , further comprising: modifying the thickness, a material composition of the bellows, or both based at least partially upon the one or more characteristics; and manufacturing another bellows assembly based at least partially upon the modified thickness, the modified material composition, or both.