Nut for fluid joint assembly having thread terminus located for cracking prevention

What is claimed is: 1. A fluid joint assembly comprising: a first fluid conduit including an inner conduit surface defining a conduit center axis extending between a first axial conduit end and a second axial conduit end; a nut for joining the first fluid conduit to a second fluid conduit, and including a nut body having an outer body surface, and an inner body surface, the inner body surface defining a nut center axis and forming a through-bore extending between a first axial end face and a second axial end face; internal threads formed on the inner body surface and advancing in a helical path around the nut center axis between a thread origin and a thread terminus located between the first axial end face and the second axial end face, wherein the nut body includes an inner clamping shoulder, and an unthreaded inner bore surface extends axially between the inner clamping shoulder and the thread terminus; the outer body surface having a tool-engagement profile, such that a radial thickness of the nut body is varied to form, circumferentially around the nut center axis, a plurality of reduced thickness regions in an alternating pattern with a plurality of increased thickness regions; and at least one of the thread origin or the thread terminus is within one of the plurality of increased thickness regions. 2. The fluid joint assembly of claim 1 wherein the nut body includes a plurality of tool strike wings forming the plurality of increased thickness regions. 3. The fluid joint assembly of claim 2 wherein: the nut body has an axial body thickness extending between the first axial end face and the second axial end face; and each of the plurality of tool strike wings has an axial wing thickness that is less than the axial body thickness. 4. The fluid joint assembly of claim 1 wherein the thread terminus is located within the one of the plurality of increased thickness regions. 5. The fluid joint assembly of claim 1 wherein the first fluid conduit includes an outer clamping shoulder in contact with the inner clamping shoulder. 6. The fluid joint assembly of claim 5 wherein the second fluid conduit is supported in the through-bore, the second fluid conduit including external threads engaged with the internal threads so as to clamp the first fluid conduit in contact with the second fluid conduit in an end-to-end arrangement. 7. The fluid joint assembly of claim 2 wherein the nut body includes a total of three tool strike wings. 8. A nut for joining fluid conduits in a joint assembly comprising: a nut body having an outer body surface, and an inner body surface defining a nut center axis extending between a first axial end face and a second axial end face of the nut body; the inner body surface forming a through-bore, for supporting a first fluid conduit and a second fluid conduit in an end-to-end arrangement, and including internal threads advancing in a helical path around the nut center axis between a thread origin and a thread terminus located between the first axial end face and the second axial end face, wherein the inner body surface includes an unthreaded inner bore surface extending axially between the thread terminus and the second axial end face of the nut body, wherein the unthreaded inner bore surface has an inwardly stepped profile between the thread terminus and the second axial end face so as to form an inner shoulder; the outer body surface having a tool-engagement profile, such that a radial thickness of the nut body is varied to form, circumferentially around the nut center axis, a plurality of reduced thickness regions in an alternating pattern with a plurality of increased thickness regions; and the thread terminus is located within one of the plurality of increased thickness regions. 9. The nut of claim 8 wherein the nut body includes a plurality of tool strike wings forming the plurality of increased thickness regions. 10. The nut of claim 9 wherein each of the plurality of tool strike wings includes an outer wing face facing a radially outward direction, and a pair of strike faces extending inwardly from the respective outer wing face such that each of the plurality of tool strike wings forms a trapezoidal profile. 11. The nut of claim 10 wherein the thread terminus is substantially aligned, circumferentially, with a longitudinal centerline of one of the plurality of outer wing faces. 12. The nut of claim 9 wherein the nut body includes a total of three tool strike wings. 13. The nut of claim 8 wherein thread valleys of the internal threads are curvilinear in longitudinal profile. 14. A nut for joining fluid conduits in a joint assembly comprising: a nut body having an outer body surface, and an inner body surface defining a nut center axis extending between a first axial end face and a second axial end face of the nut body; the inner body surface forming a through-bore, for supporting a first fluid conduit and a second fluid conduit in an end-to-end arrangement, and including internal threads advancing in a helical path around the nut center axis between a thread origin and a thread terminus; the outer body surface including a plurality of circumferential transition surfaces in an alternating arrangement with a plurality of outer faces spaced radially outward relative to the plurality of circumferential transition surfaces, wherein the nut body includes a plurality of tool strike faces each extending between one of the plurality of circumferential transition surfaces and one of the plurality of outer faces, wherein the nut body includes a total of three tool strike wings each including one of the plurality of outer faces, and two of the plurality of tool strike faces; a material thickness of the nut body is varied, based upon the radially outward spacing of the plurality of outer faces, between reduced thickness regions and increased thickness regions, such that a crack-sensitivity of the nut body is varied congruously with the varying of the material thickness; and at least one of the thread origin or the thread terminus is located within one of the increased thickness regions. 15. The nut of claim 14 wherein the inner body surface includes an unthreaded inner bore surface extending axially between the thread terminus and the second axial end face of the nut body. 16. The nut of claim 15 wherein the unthreaded inner bore surface has an inwardly stepped profile between the thread terminus and the second axial end face so as to form an inner clamping shoulder. 17. The nut of claim 14 wherein the thread terminus is centered, in a circumferential direction, within the one of the increased thickness regions. 18. A nut for joining fluid conduits in a joint assembly comprising: a nut body having an outer body surface, and an inner body surface defining a nut center axis extending between a first axial end face and a second axial end face of the nut body; the inner body surface forming a through-bore, for supporting a first fluid conduit and a second fluid conduit in an end-to-end arrangement, and including internal threads advancing in a helical path around the nut center axis between a thread origin and a thread terminus, wherein the inner body surface includes an unthreaded inner bore surface extending axially between the thread terminus and the second axial end face of the nut body, wherein the unthreaded inner bore surface has an inwardly stepped profile between the thread terminus and the second axial end face so as to form an inner clamping shoulder; the outer body surface including a plurality of c