Localized resistance annealing process

1 . A component for an automobile comprising: a first part of metal material; the first part including at least one localized area wherein the metal material in the localized area is annealed and includes a more ductile physical structure; and the at least one localized area including at least one deformation. 2 . The component according to claim 1 , wherein the deformation includes at least one aperture, and wherein a mechanical fastener extends through the aperture. 3 . The component according to claim 2 , further including a second part connected to the first part with the mechanical fastener extending through the at least one aperture. 4 . The component according to claim 3 , wherein the second part further comprises a second localized area that is annealed and includes a more ductile physical structure, and wherein the second localized area includes at least one second aperture that the mechanical fastener also extends through. 5 . The component according to claim 4 , wherein the mechanical fastener includes a self-piercing rivet. 6 . The component according to claim 4 , wherein the first part is formed of aluminum material and includes one of F-temper, T4-temper, T5-temper, and T6-temper designation. 7 . The component according to claim 4 , wherein the first part is formed of a steel material. 8 . The component according to claim 7 , wherein the steel material includes one of steel or steel alloy with carbon that has undergone a hardening process. 9 . A method of forming a component of an automobile including at least one part comprising the steps of: forming a first part of a metal material that has undergone a hardening process; placing electrodes on opposite sides of the first part; energizing the electrodes and heating a localized area within the first part until the localized area has a physical structure with increased ductility; and forming at least one deformation within the localized area. 10 . The method according to claim 9 , further including rolling the electrodes across the localized area and the step of forming a deformation includes one of cutting, trimming, or forming a bend. 11 . The method according to claim 9 , further including providing a second part and overlapping at least a portion of the second part with the localized area. 12 . The method according to claim 11 , wherein the step of forming a deformation within the localized area includes forming an aperture and driving a mechanical fastener therethrough and into the second part. 13 . The method according to claim 12 , wherein the second part is formed of a metal material that has also undergone a hardening process. 14 . The method according to claim 9 , wherein the first part is formed of aluminum material and the hardening process includes tempering to one of F-temper, T4-temper, T5-temper, or T6-temper designation. 15 . The method according to claim 9 , wherein the first part is formed of a steel material and the hardening process includes at least one of heat treatment and cold working. 16 . The method according to claim 9 , further including: providing a second part; placing electrodes on opposite sides of the second part; and energizing the electrodes and heating a second localized area within the second part until the second localized area has a physical structure with increased ductility. 17 . The method according to claim 16 , further including overlapping the first localized area with the second localized area and forming at least one deformation within the second localized area. 18 . The method according to claim 17 , wherein the step of forming at least one deformation within the first localized area and the step of forming at least one deformation within the second localized area includes driving a rivet through the first localized area and the second localize area. 19 . The method according to claim 9 , further including forming an overlap region on the first part by energizing the electrodes and heating additional localized areas within the first part until the overlap region is formed of a series of spaced localized areas having a physical structure with increased ductility 20 . A method of forming a component of an automobile including at least one part comprising the steps of: forming a first part of a metal material; increasing one of a martensite concentration or an austenite concentration in the first part; placing electrodes on opposite sides of the first part; energizing the electrodes and heating a localized area within the first part until the localized area has a physical structure with increased ductility; and forming at least one deformation within the localized area.