Piston for internal combustion engine having high temperature-capable crown piece

What is claimed is: 1. A piston for an internal combustion engine comprising: a compound piston body defining a longitudinal axis, and including a crown piece, a skirt piece, and a weld attaching the crown piece to the skirt piece; the crown piece including a first axial end having a combustion bowl formed therein and an annular piston rim extending circumferentially around the combustion bowl, and a second axial end including a first annular wall extending in a first axial direction; the skirt piece including a first axial end having a second annular wall extending in a second axial direction, a second axial end that includes a piston skirt having a wrist pin bore formed therein; the weld extending circumferentially around the longitudinal axis, and axially between the first annular wall and the second annular wall; and the compound piston body being formed of a higher temperature-capable steel throughout the crown piece, and a lower temperature-capable steel throughout the skirt piece; the higher temperature-capable steel having a martensitic microstructure, a coefficient of thermal expansion less than 12×10 −6 m/m/K, and containing 10% wt. or greater of chromium, and a balance of iron, carbon and optional alloying elements with no more than trace amounts of nickel; and the lower temperature-capable steel having a coefficient of thermal expansion less than 12×10 −6 m/m/K. 2. The piston of claim 1 wherein the higher temperature-capable steel contains 10% wt. to 14% wt. of chromium. 3. The piston of claim 2 wherein the higher temperature-capable steel contains 11.5% wt. to 13.5% wt. of chromium. 4. The piston of claim 2 wherein the lower temperature-capable steel includes a low alloy steel, and the higher temperature-capable steel includes a martensitic stainless steel. 5. The piston of claim 1 wherein the crown piece further includes a third annular wall and the skirt piece further includes a fourth annular wall, and further comprising a second weld extending circumferentially around the longitudinal axis and axially between the third annular wall and the fourth annular wall. 6. The piston of claim 5 wherein the first weld is located at a radially inward location and the second weld is located at a radially outward location, and an oil gallery extends between the radially inward location and the radially outward location and circumferentially around the longitudinal axis. 7. A piston for an internal combustion engine comprising: a compound piston body defining a longitudinal axis, and including a crown piece and a skirt piece; the crown piece including a first axial end having a combustion bowl formed therein and an annular piston rim extending circumferentially around the combustion bowl, and a second axial end including a first annular wall extending in a first axial direction; the skirt piece including a first axial end having a second annular wall extending in a second axial direction, a second axial end that includes a piston skirt, and a wrist pin bore formed between the first axial end and the second axial end of the skirt piece; the crown piece having a higher temperature capability and being formed of a martensitic stainless steel containing at least 10% wt. chromium and no more than trace amounts of nickel, and the skirt piece having a lower temperature capability and being formed of a low alloy non-martensitic steel; and a weld extending circumferentially around the longitudinal axis, and axially between the first annular wall and the second annular wall to form a bonded interface of the martensitic stainless steel and the low alloy non-martensitic steel attaching the crown piece to the skirt piece; wherein the crown piece and the skirt piece have substantially similar coefficients of thermal expansion. 8. The piston of claim 7 wherein the crown piece includes a third annular wall extending in the first axial direction and the skirt piece includes a fourth annular wall extending in the second axial direction, and further comprising a second weld extending circumferentially around the longitudinal axis, and axially between the third annular wall and the fourth annular wall to form a second bonded interface of the martensitic stainless steel and the low alloy steel attaching the crown piece to the skirt piece. 9. The piston of claim 8 wherein the crown piece includes a backside cooling surface located opposite the combustion bowl, and an oil gallery is formed in the compound piston body and extends circumferentially around the longitudinal axis and is defined in part by the backside cooling surface. 10. The piston of claim 9 wherein the combustion bowl has a reentrant profile, and the annular rim has a radiused profile. 11. The piston of claim 10 wherein the crown piece includes a sharp lip extending circumferentially around the longitudinal axis and located radially between a radially outward boundary of the combustion bowl and a radially inward boundary of the annular rim within a thermal fatigue-sensitive zone of the compound piston body. 12. The piston of claim 7 wherein the martensitic stainless steel includes a 410 stainless steel containing 10% wt. to 14% wt. of chromium. 13. A method of making a piston for an internal combustion engine comprising: positioning a crown piece formed of a martensitic stainless steel relative to a skirt piece formed of a low alloy steel such that a first annular wall of the crown piece is coaxially aligned with a second annular wall of the skirt piece; contacting the crown piece to the skirt piece such that the first annular wall of the crown piece abuts the second annular wall of the skirt piece; and welding the crown piece and the skirt piece together to form a bonded interface of the martensitic stainless steel and the low alloy steel attaching the crown piece to the skirt piece wherein the crown piece contains more than 10% wt. chromium and no more than trace amounts of nickel; wherein the crown piece and the skirt piece have similar coefficients of thermal expansion less than 10×10 −6 m/m/K. 14. The method of claim 13 wherein the welding of the crown piece and the skirt piece includes friction welding the crown piece and the skirt piece together. 15. The method of claim 14 wherein the contacting of the crown piece further includes contacting the crown piece to the skirt piece such that a third annular wall of the crown piece abuts a fourth annular wall of the skirt piece, and wherein the welding of the crown piece and the skirt piece further includes welding the crown piece and the skirt piece together to form a second bonded interface of the martensitic stainless steel and the low alloy steel attaching the crown piece to the skirt piece.