Single-piece extended laminar flow inlet lipskin

What is claimed is: 1. A method for making a heat-treated structure formed of metal, the method comprising: forming a first hardened metal workpiece into a shaped first-hardened metal workpiece, said first-hardened metal workpiece in a first-hardened condition, said shaped first-hardened metal workpiece comprising at least one friction stir weld, said first-hardened metal workpiece in a first-hardened T3 condition; performing a first heat-treating process on the shaped first-hardened metal workpiece in the first-hardened condition to transition the shaped first-hardened metal workpiece from the first-hardened condition to a shaped second-hardened metal workpiece in a second-hardened condition, said shaped second-hardened metal workpiece in a second-hardened T8 condition; and wherein the shaped second-hardened metal workpiece in the second-hardened T8 condition comprises at least one friction stir weld. 2. The method according to claim 1 , further comprising: using at least one forming process to form the first-hardened metal workpiece into the shaped first-hardened metal workpiece. 3. The method according to claim 2 , wherein the at least one forming process comprises at least one of: a stretch forming process, a form-die forming process; an explosion forming process; and combinations thereof. 4. The method according to claim 1 , wherein, before the step of forming a first-hardened metal workpiece into a shaped first-hardened metal workpiece, further comprising: forming a metal sheet into the shaped first-hardened metal workpiece while the metal sheet is in the first-hardened T3 condition. 5. The method according to claim 4 , wherein the step of forming a metal sheet further comprises: rolling the metal sheet into the shaped first-hardened metal workpiece. 6. The method according to claim 1 , further comprising: performing at least one age-hardening process on the shaped first-hardened metal workpiece in the T3 condition to form the second-hardened metal workpiece into the T8 condition. 7. The method according to claim 1 , further comprising: performing an artificial aging process on the shaped first-hardened metal workpiece in the T3 condition to form the second-hardened metal workpiece in the T8 condition. 8. A metal structure formed according to the method of claim 1 . 9. The metal structure according to claim 8 wherein the metal structure comprises aluminum or an aluminum alloy. 10. The metal structure according to claim 8 , wherein the metal structure is annularly-shaped. 11. The metal structure according to claim 10 , wherein the metal structure is a lipskin for use in an engine nacelle assembly. 12. A nacelle assembly for use on an aircraft, the nacelle assembly comprising: a lipskin made from a metal that has been heat-treated according to the method of claim 1 , said lipskin comprising at least one friction stir weld. 13. A method for making a heat-treated metal structure, the method comprising: forming a metal workpiece in a first-hardened condition into a shaped first-hardened metal workpiece, said shaped first-hardened metal workpiece comprising at least one friction stir weld, said shaped first-hardened metal workpiece in a T3 condition; performing a heat-treating process on the shaped first-hardened metal workpiece in the first-hardened condition to transition the shaped first-hardened metal workpiece from the first-hardened condition to a shaped second-hardened metal workpiece in a second-hardened condition; said shaped second-hardened metal workpiece in a T8 condition; using at least one forming process to form the metal workpiece in the first-hardened condition into the shaped first-hardened metal workpiece in the T3 condition; using at least one forming process to form the shaped second-hardened metal workpiece in the T8 condition; wherein the at least one forming process comprises at least one of: a stretch forming process; a form-die forming process; an explosion forming process; and combinations thereof. 14. The method according to claim 13 , wherein, before the step of forming a first-hardened metal workpiece into a shaped first-hardened metal workpiece, further comprising: forming a metal sheet into the shaped first-hardened metal workpiece while the metal sheet is in the T3 condition. 15. The method according to claim 13 , further comprising: performing an artificial aging process on the shaped first-hardened metal workpiece in the T3 condition to form the shaped second-hardened metal workpiece in the T8 condition. 16. A metal structure formed according to the method of claim 13 , wherein the metal structure comprises aluminum or an aluminum alloy. 17. The metal structure according to claim 16 , wherein the metal structure is a lipskin for use in an engine nacelle assembly. 18. A nacelle assembly for use on an aircraft, the nacelle assembly comprising: a lipskin made from a metal that has been made according to the method of claim 13 , said lipskin comprising at least one friction stir weld. 19. A nacelle assembly for use on an aircraft made according to method of claim 13 , the nacelle assembly comprising: comprising: a lipskin, said lipskin comprising at least one of aluminum and aluminum alloy, said lipskin further comprising at least one fiction stir weld. 20. The nacelle assembly of claim 19 , wherein the at least one of aluminum and aluminum alloy is in a T8 condition.