Stinger with metal c-ring seal

The invention claimed is: 1. An oilfield tubular designed to be installed in a tubing hanger in an XMT (Christmas tree) located on the sea bed, said oilfield tubular is exposed to a production bore pressure, said oilfield tubular comprising: axial sealing means located on an end of said oilfield tubular, said axial sealing means includes a metal c-ring seal and an external shoulder at said end, said shoulder defined by a transversely extending surface and an axially extending surface, said transversely extending surface defining a V or U shaped seat, both surfaces supporting said metal c-ring seal, wherein said metal c-ring seal is smaller in cross section than a thickness (t 1 ) of an oilfield tubular wall and an opening of said metal c-ring seal is facing a high pressure side of the production bore, the production bore pressure permanently deformably expands a c-profile of said metal c-ring seal to form a sealed engagement with contacting surfaces upon initial pressurization, said V or U shaped seat configured to support said metal c-ring seal and limit further permanent deformation of said metal c-ring seal allowing said metal c-ring seal to operate in an elastic regime to maintain sealed contact with the contacting surfaces and form sealing contact with a bore wall in the tubing hanger which is adapted to receive the oilfield tubular, in addition to make sealing contact with an external surface of the oilfield tubular, which external surface is part of the shoulder and is opposing the bore wall. 2. The oilfield tubular according to claim 1 , wherein said opening of said metal c-ring seal is aligned in the axial direction of said oilfield tubular and facing away from said oilfield tubular. 3. The oilfield tubular according to claim 2 , wherein said metal c-ring seal makes sealing contact with a bore wall in said tubing hanger adapted to receive said oilfield tubular, in addition to sealing contact with an external surface of said oilfield tubular, said external surface is part of said shoulder and is opposing said bore wall. 4. The oilfield tubular according to claim 1 , wherein said metal c-ring seal makes sealing contact with a bore wall in said tubing hanger adapted to receive said oilfield tubular, in addition to sealing contact with an external surface of said oilfield tubular, said external surface is part of said shoulder and is opposing said bore wall. 5. The oilfield tubular according to claim 1 , wherein said metal c-ring seal is less than 5 mm in thickness cross section. 6. The oilfield tubular according to claim 1 , wherein said metal c-ring seal is made of a corrosion resistant alloy. 7. The oilfield tubular according to claim 6 , wherein the corrosion resistant alloy is Inconel. 8. The oilfield tubular according to claim 1 , wherein said metal c-ring seal has a wall thickness (t 2 ) in the range of 0.01 to 0.25 mm. 9. The oilfield tubular according to claim 1 , wherein said shoulder is an angular notch. 10. The oilfield tubular according to claim 1 , wherein said shoulder is a 90 degree notch. 11. The oilfield tubular according to claim 1 , wherein said metal c-ring seal operates in an elastic regime where deformations are extremely small when compared to a seal interference of said metal c-ring seal with the contacting surfaces to be sealed. 12. The oilfield tubular according to claim 1 , wherein said U or V shaped seat supports said metal c-ring seal along at least 30% of said metal c-ring seal's circumference. 13. The oilfield tubular according to claim 1 , wherein said metal c-ring seal is permanently deformed at its center.