Threaded connection and process for obtaining it

The invention claimed is: 1. A female component for a tubular hydrocarbon working string subjected to dynamic bending strength, the female component having a longitudinal axis and comprising: a tapered female threading for cooperation with a male threading to form a rigid mutual connection of tubular elements, a free end, and a female sealing surface being disposed between the free end and the tapered female threading, the female sealing surface configured to come into contact in a made up condition with a male sealing surface to form a metal-to-metal seal; an annular groove provided between the free end and the female sealing surface, leaving an axial distance greater than zero between the free end and an outward transition region of the female sealing surface, and a radial distance greater than zero between the female sealing surface and a chamfer of the free end, the annular groove comprising a border formed by the chamfer and a border formed by a portion of the transition region, to protect the female sealing surface prior to makeup; and a low thickness zone at the tapered female threading and a high thickness zone at the female sealing surface, the low thickness zone extending over a portion of a length of the tapered female threading and being obtained by providing a concavity in axial section from an external surface of the female component. 2. The female component according to claim 1 , further comprising an internal abutment surface disposed close to the tapered female threading on a side opposite to the free end. 3. The female component according to claim 1 , in which the chamfer is tapered at an angle in a range of 10° to 30°. 4. The female component according to claim 1 , in which the free end comprises a surface orientated substantially radially. 5. The female component according to claim 1 , in which the annular groove has a concavity with an angle of less than 160° in section along a plane passing through an axial section thereof. 6. The female component according to claim 1 , in which the portion of the transition region is substantially radial. 7. The female component according to claim 1 , in which the portion of the transition region is in a general form of a circular arc in axial section and the female sealing surface is in a general form of a circular arc in axial section, a radius of the female sealing surface being more than 150 mm, or a radius of the female sealing surface is more than at least 10 times a radius of the portion of the transition region. 8. The female component according to claim 1 , in which the portion of the transition region is in a general form of a circular are in axial section and the female sealing surface is tapered. 9. The female component according to claim 1 , in which the female sealing surface has a mean inclination that is less than an inclination of the chamfer, or is less by at least 10%. 10. The female component according to claim 1 , in which, the female sealing surface has a mean inclination of more than 35%. 11. The female component according to claim 1 , in which the axial distance between the free end and the outward transition region of the female sealing surface is greater than 1 mm and less than 25% of a nominal exterior diameter of the component, and the radial distance between the female sealing surface and the chamfer of the free end is more than 1.5 mm. 12. The female component according to claim 1 , in which the tapered female threading comprises roots, crests, load flanks, and stabbing flanks connected via fillets with two radii of curvature, a large radius of curvature close to the roots and crests and a small radius of curvature close to the load flanks and the stabbing flanks. 13. A process for obtaining a female component according to claim 1 , comprising selecting a location of maximum pressure to which the female sealing surface in contact with the ale sealing surface is subjected, as a function of the axial distance between the free end and the outward transition region of the female sealing surface. 14. A threaded connection, comprising: a female component according to claim 1 and a male component comprising a tapered male threading, a male sealing surface, and an external cylindrical surface, the male sealing surface being disposed between the tapered male threading and the eater al cylindrical surface; a ramp provided close to the external cylindrical surface; and a cylindrical inspection surface provided between the ramp and the male sealing surface. 15. A process for obtaining a threaded connection according to claim 14 , comprising inspecting the male sealing surface to verify that the cylindrical inspection surface has been machined. 16. The threaded connection according to claim 14 , wherein threading of the tapered female threading and the male threading is self-locking.