Piston cooling gallery shaping to reduce piston temperature

The invention claimed is: 1. A piston for an internal combustion engine, comprising: a body formed of a metal material, said body presenting a combustion surface and an undercrown surface, said body including a cooling gallery surface surrounding a volume of space which extends circumferentially around said undercrown surface, said body including a plurality of serrations formed in said cooling gallery surface and/or said undercrown surface, each serration including a base surface which presents a concave shape, and said base surface being 1 to 3 mm deep relative to said cooling gallery surface and/or said undercrown surface. 2. The piston of claim 1 , wherein said body includes an upper part providing a portion of said cooling gallery surface, said body includes a lower part providing a portion of said cooling gallery surface, and said serrations are formed in said portion of said cooling gallery surface provided by said upper part. 3. The piston of claim 1 , wherein said serrations are formed in said undercrown surface. 4. The piston of claim 1 , wherein said body includes a weld between an upper part joined to a lower part, and said body includes weld curls along said weld. 5. The piston of claim 1 , wherein said body includes a lower part joined to an upper part at a weld, and said body includes weld curls located along said weld, and said weld curls are shaped. 6. The piston of claim 1 , wherein said body is formed of steel, said body extends circumferentially around a center axis and longitudinally along said center axis from an upper end to a lower end, said body includes a weld between an upper part joined to a lower part, said upper part includes said combustion surface and said undercrown surface facing opposite said combustion surface, said upper part includes a portion of said cooling gallery surface, said upper part includes an upper wall, a portion of an outer side wall, and a portion of said inner side wall, said lower part includes a lower wall, a portion of said outer side wall, and a portion of said inner side wall, said upper wall, said lower wall, said inner side wall, and said outer side wall together present said cooling gallery surface, said cooling gallery surface is spaced from said center axis, said inner and outer side walls include said weld, said combustion surface presents an apex at said center axis, a bowl-shape surrounding said apex, and a bowl rim surrounding said bowl shape, said outer side wall includes a plurality of ring grooves facing away from said center axis and extending circumferentially around said center axis, said ring grooves are spaced from one another by lands, said body includes pin bosses depending from one of said ring lands, said pin bosses presents a pin bore extending perpendicular to said center axis, said body includes skirt sections extending circumferentially about said center axis, and said skirt sections are joined to said pin bosses and spaced from one another circumferentially about said center axis by said pin bosses. 7. A method of manufacturing a piston for an internal combustion engine, comprising the steps of: providing a body formed of a metal material, the body including an upper part presenting a combustion surface and an undercrown surface, the body including a cooling gallery surface surrounding a volume of space which extends around the undercrown surface, and forming a plurality of serrations in the cooling gallery surface and/or the undercrown surface, each serration including a base surface which presents a concave shape, and the base surface is 1 to 3 mm deep relative to the cooling gallery surface and/or the undercrown surface. 8. The method of claim 7 , wherein said serrations are formed by machining. 9. The method of claim 7 , wherein said serrations are formed in the body while casting the body. 10. A piston for an internal combustion engine, comprising: a body formed of a metal material; said body including a lower part joined to an upper part by a weld, said an upper part presenting a combustion surface and an undercrown surface; said body including weld curls along said weld, said weld curls being shaped; said body including a cooling gallery surface surrounding a volume of space which extends circumferentially around said undercrown surface; and and said body including a plurality of serrations formed in said cooling gallery surface and/or said undercrown surface. 11. The piston of claim 10 , wherein said upper part includes an upper wall, a portion of an outer side wall, and a portion of an inner side wall, said lower part includes a lower wall, a portion of said outer side wall, and a portion of said inner side wall, said upper wall, said lower wall, said inner side wall, said outer side wall present said cooling gallery surface, weld curls are formed on an interior side of said outer side wall, an exterior side of said inner side wall, and/or an interior side of said inner side wall. 12. The piston of claim 10 , wherein said weld curls include an upper weld curl in said upper part and a lower weld curl in said lower part. 13. The piston of claim 12 , the surface area provided by said upper weld curl is greater than or less than the surface area provided by said lower weld curl. 14. The piston of claim 10 , wherein a total surface area of said weld curls along an interior side of an inner side wall is greater than a total surface area of said weld curls along an exterior side of said inner side wall. 15. The piston of claim 10 , wherein said body is formed of steel, said body extends circumferentially around a center axis and longitudinally along said center axis from an upper end to a lower end, said body includes a cooling gallery surface surrounding a volume of space which extends circumferentially around an undercrown surface, said upper part includes said undercrown surface facing opposite said combustion surface, said upper part includes a portion of said cooling gallery surface, said upper part includes an upper wall, a portion of an outer side wall, and a portion of said inner side wall, said lower part includes a lower wall, a portion of said outer side wall, and a portion of said inner side wall, said upper wall, said lower wall, said inner side wall, and said outer side wall together present said cooling gallery surface, said cooling gallery surface is spaced from said center axis, said inner and outer side walls include said weld, said combustion surface presents an apex at said center axis, a bowl-shape surrounding said apex, and a bowl rim surrounding said bowl shape, said outer side wall includes a plurality of ring grooves facing away from said center axis and extending circumferentially around said center axis, said ring grooves are spaced from one another by lands, said body includes pin bosses depending from one of said ring lands, said pin bosses presents a pin bore extending perpendicular to said center axis, said body includes skirt sections extending circumferentially about said center axis, and said skirt sections are joined to said pin bosses and spaced from one another circumferentially about said center axis by said pin bosses. 16. A method of manufacturing a piston for an internal combustion engine, comprising the steps of: welding a lower part formed of metal material to an upper part formed of metal material, the welding step including forming weld curls along the weld, and shaping the weld curls. 17. The method of claim 16 , wherein the shaping step occurs during the welding step.