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In a method for fabricating a heat exchanger, a metal body includes a bore and inlet and outlet connectors fitted to the body at respective inlet and outlet ends of the bore. The connectors each include an inner surface in which annular grooves are formed. A tube is inserted in the bore such that in

In a method for fabricating a heat exchanger, a metal body includes a bore and inlet and outlet connectors fitted to the body at respective inlet and outlet ends of the bore. The connectors each include an inner surface in which annular grooves are formed. A tube is inserted in the bore such that inlet and outlet ends of the tube are respectively located in the inlet and outlet connectors. A mandrel is operated to expand at least a portion of the tube into contact with the body, and to expand the inlet and outlet tube ends into contact with the grooves of the inlet and outlet connectors, respectively. The heat exchanger provides improved thermal exchange efficiency between the tube and the body, and fluid-tight connections between the tube and the inlet and outlet connectors.

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1. A method for fabricating a heat exchanger, the method comprising: providing a metal body defining a bore extending through the metal body, the bore comprising a plurality of rectilinear bore sections, wherein an inlet hydraulic connector is fitted to the body at an inlet end of the bore and an ou

1. A method for fabricating a heat exchanger, the method comprising: providing a metal body defining a bore extending through the metal body, the bore comprising a plurality of rectilinear bore sections, wherein an inlet hydraulic connector is fitted to the body at an inlet end of the bore and an outlet hydraulic connector is fitted to the body at an outlet end of the bore, the inlet hydraulic connector and the outlet hydraulic connector each comprising an inner surface in which a plurality of annular grooves is formed;inserting a tube into the bore such that the tube is surrounded by a wall of the body defining the bore, the tube comprising a plurality of rectilinear tube sections, wherein an inlet end of the tube is located in the inlet hydraulic connector and an outlet end of the tube is located in the outlet hydraulic connector, and wherein inserting the tube into the bore comprises inserting the tube sections into corresponding bore sections;operating a mandrel to expand at least a portion of the tube into contact with the wall, to expand the inlet end of the tube into contact with the inner surface and the annular grooves of the inlet hydraulic connector and to expand the outlet end of the tube into contact with the inner surface and the annular grooves of the outlet hydraulic connector, forming a fluid-tight connection between the tube and the inlet hydraulic connector and between the tube and the outlet hydraulic connector;connecting the tube sections in series by joints to establish a fluid flow path from one tube section to another tube section via the corresponding joint, each joint comprising a joint opening open to an outer surface of the body; andclosing each joint opening by installing a respective closing member at the joint opening. 2. The method of claim 1, wherein expanding at least a portion of the tube comprises expanding greater than 10% of a total length of the tube. 3. The method of claim 1, wherein expanding at least a portion of the tube comprises expanding greater than 30% of a total length of the tube. 4. The method of claim 1, further comprising: continuing to expand the portion of the tube, the inlet end of the tube, and the outlet end of the tube until achieving plastic deformation and a reduction in thickness of the tube, the inlet end of the tube, and the outlet end of the tube. 5. The method of claim 1, wherein the inlet end of the tube and the outlet end of the tube are expanded so as to cause edges of the respective annular grooves of the inner hydraulic connector and the outer hydraulic connector to cut into an external surface of the tube at the respective inlet end and the outlet end of the tube. 6. The method of claim 1, comprising, before closing at least one of the joint openings, inserting the mandrel through the at least one joint opening and into the tube section associated with the at least one joint opening to expand the tube section into contact with the wall. 7. The method of claim 6, wherein each joint comprises an internal surface in which a plurality of annular grooves is formed, and expanding the tube section comprises expanding the tube section into contact with the internal surface and the annular grooves of the joint. 8. The method of claim 1, wherein the tube is coated with a layer of malleable material having high thermal conductivity. 9. The method of claim 8, wherein the malleable material is silver. 10. A method for fabricating a heat exchanger, the method comprising: forming a plurality of bore sections of a bore through a body of the heat exchanger;fitting an inlet hydraulic connector to the body at an inlet end of the bore, and fitting an outlet hydraulic connector to the body at an outlet end of the bore, each of the inlet hydraulic connector and the outlet hydraulic connector having an inner surface in which a plurality of annular grooves is formed;inserting a plurality of rectilinear tube sections of a tube into the plurality of bore sections, respectively, an inlet end of the tube being located in the inlet hydraulic connector and an outlet end of the tube being located in the outlet hydraulic connector; andconnecting adjacent tube sections of the plurality of tube sections by a joint to establish a fluid flow path through the tube, the joint comprising a joint opening open to an outer surface of the body; andexpanding the inlet end of the tube into contact with the inner surface and the annular grooves of the inlet hydraulic connector, and expanding the outlet end of the tube into contact with the inner surface and the annular grooves of the outlet hydraulic connector to form fluid-tight connections, respectively. 11. The method of claim 10, wherein the inlet end of the tube and the outlet end of the tube are expanded using a mandrel inserted through the joint opening. 12. The method of claim 11, further comprising: closing the joint opening by installing a respective closing member at the joint opening. 13. The method of claim 10, wherein the joint comprises an internal surface in which a plurality of annular grooves is formed, further comprising: expanding the adjacent tube sections into contact with the internal surface and the annular grooves of the joint.