Conformal cooling insert

What is claimed is: 1. A cooling insert for a die, comprising: a steel material including chromium (Cr) in an amount of 4.75-5.50 weight percent (wt. %), molybdenum (Mo) in an amount of 1.10-1.75 wt. %, silicon (Si) in an amount of 0.80-1.20 wt. %, vanadium (V) in an amount of 0.80-1.20 wt. %, carbon (C) in an amount of 0.32-0.45 wt. %, manganese (Mn) in an amount of 0.20-0.50 wt. %, phosphorous in an amount up to 0.03 wt. %, sulfur in an amount up to 0.03 wt. %, and impurities in an amount up to 0.2 wt. %, based on the total weight of said steel material; said steel material including at least one cooling channel; said steel material having a hardness of 380 to 480 HV10 and a yield strength of 900 to 1300 MPa, and wherein said steel material presents a surface, one cooling channel of said at least one cooling channel has a diameter and is located a distance from said surface equal to 1.5 times to 1.8 times said diameter of said cooling channel. 2. The cooling insert of claim 1 , wherein said at least one cooling channel includes a plurality of curves. 3. The cooling insert of claim 2 , wherein said at least one cooling channel includes at least ten curves. 4. The cooling inset of claim 1 , wherein said steel material includes the chromium (Cr) in an amount of 5.25 weight percent (wt. %), the molybdenum (Mo) in an amount of 1.35 wt. %, the silicon (Si) in an amount of 1.00 wt. %, the vanadium (V) in an amount of 1.00 wt. %, the carbon (C) in an amount of 0.40 wt. %, and the manganese (Mn) in an amount of 0.40 wt. %, based on the total weight of said steel material. 5. The cooling insert of claim 1 , wherein said steel material has ultimate tensile strength (UTS) of 1000 MPa to 1590 MPa; elongation of 15 to 40%; yield strength of 900 to 1300 MPa; Young's Modulus of 206 GPa to 190 GPa from 70° C. to 800° C.; thermal expansion at 20° C. to 100° C. of 10.4 to 12.5*10 −6/ K; and heat conductivity from 80 to 800° C. of 17.6 to 25.0 W/mK. 6. The cooling insert of claim 5 , wherein said elongation is 40%; said yield strength is 1200 MPa; said Young's Modulus is 210 GPa from 70° C. to 800° C.; said thermal expansion is 11*10 −6/ K at 20° C. to 100° C.; and said heat conductivity from 80 to 800° C. is 23 W/mK. 7. A cooling insert for a die, comprising: a steel material including chromium (Cr) in an amount of 4.75-5.50 weight percent (wt. %), molybdenum (Mo) in an amount of 1.10-1.75 wt. %, silicon (Si) in an amount of 0.80-1.20 wt. %, vanadium (V) in an amount of 0.80-1.20 wt. %, carbon (C) in an amount of 0.32-0.45 wt. %, manganese (Mn) in an amount of 0.20-0.50 wt. %, phosphorous in an amount up to 0.03 wt. %, sulfur in an amount up to 0.03 wt. %, and impurities in an amount up to 0.2 wt. %, based on the total weight of said steel material; said steel material including at least one cooling channel; said steel material having a hardness of 380 to 480 HV10 and a yield strength of 900 to 1300 MPa, and wherein said steel material presents a surface, one cooling channel of said at least one cooling channel includes a plurality of curves and a plurality of segments, and said segments are disposed parallel to one another and are located an equal distance from said surface. 8. An apparatus for high pressure die casting (HPDC) parts formed of aluminum or aluminum alloy, comprising: a die including a surface presenting cavity for containing molten aluminum or aluminum alloy; and said cooling insert of claim 1 disposed along said surface. 9. A method of high pressure die casting a part comprising the steps of: disposing the cooling insert of claim 1 along a surface of a casting assembly, the surface and the cooling insert presenting a cavity for containing molten metal; and conveying cooling fluid through the at least one cooling channel of the cooling insert while molten metal is disposed in the cavity.