A flexible, thermal-isolating tube includes a first fluid flow channel portion having a dual-walled configuration, a second fluid flow channel portion having a dual-walled configuration, and a bellows disposed between and coupled to each of the first and second fluid flow channel portions. The flexible, thermal-isolating tube, including each of the first and second fluid flow channel portions, and the bellows, is configured as a unitary structure. The flexible, thermal-isolating tube is manufactured using an additive manufacturing process. The flexible, thermal-isolating tube is disposed within a gas turbine engine

An expansion joint, which connects pipes to each other and is capable of expanding and contracting, the joint being provided with: a first end pipe and a second end pipe; a connecting pipe for connecting the first end pipe to the second end pipe so as to be capable of approaching and separating from each other; and a thrust-absorbing device having a pressure chamber, which can expand and contract in the direction in which the first end pipe and the second end pipe are linked and into which a fluid pressure that differs from the pressure inside the pipes can be introduced, the pressure chamber comprising a first pressure-receiving section, which is fixed to the first end pipe and faces in the direction from the second end pipe toward the first end pipe, and a second pressure-receiving section, which is fixed to the second end pipe and faces in the direction from the first end pipe towards the second end pipe.

A device for transferring fluid between two separate structures includes a rigid pipe with a double shell extending along a longitudinal axis. The pipe includes an outer-shell housing (in the inner vacuum space thereof), at least one inner duct for fluid transfer, and at first and second ends thereof, includes respective first and second rigid connections of the outer shell to the first structure and second structures, respectively. The first and second ends of the outer shell are rigidly connected to the at least one inner duct. The pipe comprises a system to compensate for movements in the longitudinal direction.

A device for transferring fluid between two separate structures includes a rigid pipe with a double shell extending along a longitudinal axis. The pipe includes an outer-shell housing (in the inner vacuum space thereof), at least one inner duct for fluid transfer, and at first and second ends thereof, includes respective first and second rigid connections of the outer shell to the first structure and second structures, respectively. The first and second ends of the outer shell are rigidly connected to the at least one inner duct. The pipe comprises a system to compensate for movements in the longitudinal direction.

A conductive elastomeric flexible coupling for a pneumatic duct system is provided. The coupling includes a tube section. An electrically conductive coating is applied to at least an exterior surface of the tube section. The coating acts as an electrically conductive compliant material configured to conduct electrical charges transferred from a substance carried by and flowing through the duct system and accommodate large deflections.

A conductive elastomeric flexible coupling for a pneumatic duct system is provided. The coupling includes a tube section. An electrically conductive coating is applied to at least an exterior surface of the tube section. The coating acts as an electrically conductive compliant material configured to conduct electrical charges transferred from a substance carried by and flowing through the duct system and accommodate large deflections.

A flexible metal seal assembly for isolating one or more fluids in an operative region of a machine comprises a first flexible metal seal and a second flexible metal seal arranged in series, allowing the additional exertion of a spring bias. The inner surface of the first flexible metal seal is restrainably and hermetically attached to the outer surface of a metallic coupler, while the outer surface of the second flexible metal seal is restrainably and hermetically attached to the inner surface of the metallic coupler. Amongst other applications, the assembly may be used in a valve seal, or in an engine fuel pump, where it serves to isolate lubricating oil from fuel, or one fluid from a region, where one fluid may be present on an actuator that reciprocates within the second flexible metal seal or outside of the first flexible metal seal.

An expansion joint for a solids return system includes a female joint portion, a male joint portion received by the female joint portion, the male joint portion and the female joint portion forming a lateral breach therebetween, a double rope seal positioned within the lateral breach, the double rope seal being configured to accommodate relative lateral movement between the female joint portion and the male joint portion, and an insulating pillow received about the male joint portion and abutting a distal end surface of the female joint portion, the insulating pillow being configured to accommodate relative axial movement between the female joint portion and the male joint portion.

A connection assembly between two portions of a supply line for a cryogenic fluid, the assembly including a male nozzle arranged to be at least partially inserted into a female nozzle together forming a tight mechanical link, over a distance of a few centimeters, a thermal insulation chamber for each of the two line portions and an additional thermal insulation chamber to thermally insulate the connection zone of the two line portions, and an expansion chamber for the cryogenic fluid that is configured to be linked to a cryogenic fluid sensor, arranged about the connection zone of the two line portions. This enables two cryogenic fluid line portions to be connected without requiring one portion to be inserted into the other portion over a significant length, thereby enhancing mechanical flexibility and obviating the need for significant free space about the connection assembly to assemble and disassemble the assembly.

A connection assembly between two portions of a supply line for a cryogenic fluid, the assembly including a male nozzle arranged to be at least partially inserted into a female nozzle together forming a tight mechanical link, over a distance of a few centimeters, a thermal insulation chamber for each of the two line portions and an additional thermal insulation chamber to thermally insulate the connection zone of the two line portions, and an expansion chamber for the cryogenic fluid that is configured to be linked to a cryogenic fluid sensor, arranged about the connection zone of the two line portions. This enables two cryogenic fluid line portions to be connected without requiring one portion to be inserted into the other portion over a significant length, thereby enhancing mechanical flexibility and obviating the need for significant free space about the connection assembly to assemble and disassemble the assembly.