Coupling for insulated piping

The invention claimed is: 1. A coupling for insulated piping, the coupling comprising: first and second parts for forming the coupling; each of the first and second parts comprising an inner portion for fluid communication with an inner part of an insulated pipe and an outer portion for communication with an outer insulative part of an insulated pipe; the inner portions of the first and second parts being suitable for forming an inner region for the passage of fluid therethrough; each of the first and second parts comprising an interface portion for forming an interface with an interface portion of the other of the first and second parts, the interface portion comprising a flange for connecting the first and second parts, and an interface second portion located inward of the flange, the interface portion extending radially outwards from the interface second portion to the flange; wherein at least one of the first and second parts comprises a thermally-insulative portion between the flange and the interface second portion, thereby providing a thermally-insulative path in a radial direction between the flange and the interface second portion; at least one of the first and second parts comprises a thermally-conductive portion that extends away from the interface portion and which provides a thermally-conductive path between the flange and the interface second portion; wherein the thermally-conductive portion comprises an outer wall exposed to an outside of the coupling; and, wherein the thermally-conductive portion bounds the thermally-insulative portion. 2. The coupling of claim 1 , wherein the thermally-conductive portion extends away from the flange to a region remote from the flange, and extends from the region remote from the flange to the interface second portion. 3. The coupling of claim 1 , wherein the interface second portion is proximate to, and outward of, the inner portion. 4. The coupling of claim 1 , wherein the interface second portion comprise a portion of reduced conductive cross-section, the portion of reduced conductive cross-section comprising one or more recesses or apertures in the interface second portion, the one or more of the recesses or apertures being provided with a solid thermally-insulative material. 5. The coupling of claim 1 , wherein each of the first and second parts comprises an inner conduit portion for interfacing with the insulated pipe and the insulated pipe is an inner vacuum insulated pipe, wherein the inner conduit portion extends past the respective thermally-conductive portion, wherein the inner conduit portion and the thermally-conductive portion define a space for interfacing with an insulative region of the insulated pipe. 6. The coupling of claim 5 , wherein the inner conduit portion of the first part comprises a projection, and the second part comprises a projection-receiving portion for receiving the projection of the first part, the projection comprises a lower thermal expansion region having a first co-efficient of thermal expansion, and the projection-receiving portion has a second co-efficient of thermal expansion, the second co-efficient of thermal expansion being greater than the first co-efficient of thermal expansion; wherein the projection and projection-receiving portion are configured so that the projection-receiving portion engages the projection when cooled to temperatures associated with the passage of cold liquid through the inner conduit portions, the temperature being no more than −200° C. and no less than −260° C.; and wherein the inner conduit portion of the second part comprise the projection-receiving portion, the inner conduit portion of the second part comprising a non-receiving portion that does not receive the projection, the diameter of the projection-receiving portion being greater than that of the non-projection receiving portion. 7. The coupling of claim 1 , wherein the first and second part comprises the thermally-insulative portion surrounding the outer portion, wherein the thermally-insulative portion is cylindrical in shape, and, the thermally-conductive portion comprises a first thermally-conductive portion inwards of the thermally-insulative portion and a second thermally-conductive portion outwards of the thermally-insulative portion. 8. The coupling of claim 1 , wherein one of the first and second part is provided with a first seal-forming member and a second seal-forming member, wherein the first seal-forming member is located outward of the inner portion and inward of the outer portion, and the second seal-forming member is located outwards of the thermally-conductive portion, wherein the first and second parts are provided with passages that together provide one or more flow paths for the outer regions of the first and second parts. 9. The coupling of claim 1 , wherein the coupling is a coupling for vacuum-insulated piping, each of the first and second parts comprising the inner portion is for fluid communication with an inner part of a vacuum-insulated pipe and the outer is portion for fluid communication with an outer low-pressure part of a vacuum-insulated pipe. 10. A coupling for insulated piping, the coupling comprising: first and second parts for forming the coupling, each of the first and second parts comprising an inner portion for fluid communication with an inner part of an insulated pipe, and an outer portion for communication with an outer insulative part of an insulated pipe, the inner portions of the first and second parts being suitable for forming an inner region for the passage of fluid therethrough, at least one of the first and second parts comprises a sleeve surrounding the outer portion, the sleeve comprising a thermally-insulative portion surrounding the outer portion, wherein the at least one of the first and second parts comprises a thermally-conductive portion comprising an outer wall exposed to an outside of the coupling, and wherein the thermally-conductive portion bounds the thermally-insulative portion. 11. A coupling according to claim 10 , wherein the outer portion comprises a thermally-conductive portion that is in thermal communication with an interface portion so as to conduct heat away from the interface portion, or at least one of the first and second parts comprises a flange and an interface second portion located inwards of the flange, wherein the outer portion comprises a thermally-conductive portion that extends away from an interface portion and which provides a thermally-conductive path between the flange and the interface second portion. 12. A coupling for insulated piping, the coupling comprising: first and second parts for forming the coupling; each of the first and second parts comprising an inner portion for fluid communication with an inner part of an insulated pipe and an outer portion for communication with an outer insulative part of an insulated pipe; the inner portions of the first and second parts being suitable for forming an inner region for the passage of fluid therethrough; each of the first and second parts comprising an interface portion for forming an interface with interface portion of the other of the first and second parts, the interface portion comprising a flange for connecting the first and second parts, at least one of the first and second parts comprising a thermally-conductive portion that extends away from the interface portion, wherein the thermally-conductive portion comprises an outer wall exposed to an outside of the coupling, and wherein the thermally-conductive portion bounds the thermally-insulative portion. 13. The coupling of claim 12 , comprising a sleeve, which sleeve compr