Conduits for transporting fluids

What is claimed is: 1. A conduit for transporting a fluid, the conduit comprising: a first collar that comprises: a first outer collar portion; a first inner collar portion; and a first weld, hermetically coupling the first outer collar portion and the first inner collar portion; a second collar that comprises: a second outer collar portion; a second inner collar portion; and a sixth weld, hermetically coupling the second outer collar portion and the second inner collar portion; a bellows that comprises: a central axis; a corrugated outboard ply; a corrugated inboard ply, interposed between the corrugated outboard ply and the central axis; and an interstitial space, interposed between the corrugated inboard ply and the corrugated outboard ply; a second weld, hermetically coupling the corrugated inboard ply and the first outer collar portion; a third weld, hermetically coupling the corrugated outboard ply and the first inner collar portion; a fourth weld, hermetically coupling the corrugated inboard ply and the second outer collar portion; a fifth weld, hermetically coupling the corrugated outboard ply and the second inner collar portion; and a first sensor, communicatively coupled with the interstitial space. 2. The conduit according to claim 1 , wherein: the first collar further comprises a first channel, passing through one of the first outer collar portion or the first inner collar portion; the first channel is cross-sectionally circumferentially closed; the first channel is communicatively coupled with the interstitial space of the bellows; and the first sensor is communicatively coupled with the first channel of the first collar. 3. The conduit according to claim 2 , wherein: the first collar further comprises a first cavity, located between the first outer collar portion and the first inner collar portion; the second collar further comprises a second cavity, located between the second outer collar portion and the second inner collar portion; the first channel is communicatively coupled with the first cavity; the first cavity has an annular shape and is communicatively coupled with the interstitial space; and the second cavity has an annular shape and is communicatively coupled with the interstitial space. 4. The conduit according to claim 3 , further comprising a second sensor, and wherein: the second collar further comprises a second channel, passing through one of the second outer collar portion or the second inner collar portion; the second channel is cross-sectionally circumferentially closed; the second channel is communicatively coupled with the interstitial space of the bellows; and the second sensor is communicatively coupled with the second channel of the second collar. 5. The conduit according to claim 1 , wherein: the bellows further comprises a second corrugated outboard ply; the corrugated outboard ply is interposed between the corrugated inboard ply and the second corrugated outboard ply; and the second corrugated outboard ply is hermetically coupled to the first inner collar portion by the third weld and is hermetically coupled to the second inner collar portion by the fifth weld. 6. The conduit according to claim 1 , further comprising a sheath that comprises a reinforcement layer, and wherein the corrugated outboard ply is interposed between the sheath and the central axis. 7. The conduit according to claim 6 , wherein the sheath is coupled to the first inner collar portion of the first collar and to the second inner collar portion of the second collar. 8. The conduit according to claim 7 , wherein the sheath is movable relative to the first inner collar portion of the first collar and relative to the second inner collar portion of the second collar. 9. The conduit according to claim 8 , wherein the sheath is translatable along the central axis relative to the first inner collar portion of the first collar and relative to the second inner collar portion of the second collar. 10. The conduit according to claim 8 , wherein the sheath is rotatable about the central axis relative to the first inner collar portion of the first collar and relative to the second inner collar portion of the second collar. 11. The conduit according to claim 6 , wherein: the sheath further comprises a low-friction layer, interposed between the reinforcement layer of the sheath and the corrugated outboard ply of the bellows; and the low-friction layer of the sheath has a surface roughness lower than that of the reinforcement layer of the sheath. 12. The conduit according to claim 11 , wherein: the bellows further comprises a second corrugated outboard ply; the corrugated outboard ply is interposed between the corrugated inboard ply and the second corrugated outboard ply; the second corrugated outboard ply is hermetically coupled to the first inner collar portion by the third weld and is hermetically coupled to the second inner collar portion by the fifth weld; and the low-friction layer of the sheath is in contact with the second corrugated outboard ply of the bellows. 13. The conduit according to claim 1 , wherein: the first sensor comprises a first chamber, containing a first reactant; the first sensor further comprises a second chamber, containing a second reactant, isolated from the first chamber, and communicatively coupled with the interstitial space; and the first reactant is identical to the second reactant. 14. The conduit according to claim 1 , wherein: at least a part of a portion of the corrugated outboard ply, proximate the third weld, is closer to the central axis of the bellows than the third weld; and at least a part of a portion of the corrugated outboard ply, proximate the fifth weld, is closer to the central axis of the bellows than the fifth weld. 15. The conduit according to claim 1 , wherein: the second weld is offset from the third weld along the central axis of the bellows; and the fourth weld is offset from the fifth weld along the central axis of the bellows. 16. The conduit according to claim 1 , wherein: the second weld is offset from the third weld along an axis, perpendicular to the central axis of the bellows, and is closer to the central axis than the third weld; and the fourth weld is offset from the fifth weld along an axis, perpendicular to the central axis of the bellows, and is closer to the central axis than the fifth weld. 17. The conduit according to claim 1 , wherein: the first weld is offset from the second weld and the third weld along an axis, perpendicular to the central axis of the bellows, and is farther away from the central axis than the second weld or the third weld; and the sixth weld is offset from the fourth weld and the fifth weld along an axis, perpendicular to the central axis of the bellows, and is farther away from the central axis than the fourth weld or the fifth weld. 18. The conduit according to claim 1 , wherein: the first weld is offset from the second weld and the third weld along the central axis of the bellows; and the sixth weld is offset from the fourth weld and the fifth weld along the central axis of the bellows. 19. The conduit according to claim 1 , wherein the first sensor is configured to detect a pressure change in the interstitial space. 20. The conduit according to claim 1 , wherein the first sensor is configured to detect a chemical change within the interstitial space.