Steel material having excellent corrosion resistance and excellent magnetic properties and production method therefor

The invention claimed is: 1. A steel material, consisting of: from 0.001 mass % to 0.025 mass % of C; from 1.8 mass % to 4.0 mass % of Si; from 0.1 mass % to 1.0 mass % of Mn; more than 0 mass % and 0.030 mass % or less of P; more than 0 mass % and 0.10 mass % or less of S; more than 0 mass % and 4.0 mass % or less of Cr; more than 0 mass % and 0.010 mass % or less of Al; and more than 0 mass % and 0.01mass % or less of N; and optionally, at least one selected from the group consisting of: more than 0 mass % and 0.5mass % or less of Cu; more than 0 mass % and 0.5mass % or less of Ni; and more than 0 mass % and 1.0 mass % or less of Pb; with the remainder consisting of iron and unavoidable impurities, wherein said steel material comprises an oxide coating on its surface, and wherein the oxide coating comprises Si, Cr, or a combination thereof, includes a non-crystalline layer, and has a thickness of from 50 nm to 500 nm, and wherein the steel material has a coercive force no more than 80 A/m and a magnetic flux density no less than 1.20 T, as determined by JIS C2504 on a ring shaped specimen of the steel material having a size of 18 mm in outer diameter×10 mm in inner diameter×3 mm in thickness. 2. A method for producing the steel material of claim 1 , the method comprising: producing a steel material consisting of: from 0.001 mass % to 0.025 mass % of C; from 1.8 mass % to 4.0 mass % of Si; from 0.1 mass % to 1.0 mass % of Mn; more than 0 mass % and 0.030 mass % or less of P; more than 0 mass % and 0.10 mass % or less of S; more than 0 mass % and 4.0 mass % or less of Cr; more than 0 mass % and 0.010 mass % or less of Al; and more than 0 mass % 0.01mass % or less of N; and optionally, at least one selected from the group consisting of: more than 0 mass % and 0.5mass % or less of Cu; more than 0 mass % and 0.5mass % or less of Ni; and more than 0 mass % and 1.0 mass % or less of Pb; with the remainder consisting of iron and unavoidable impurities; annealing the steel material, wherein the annealing comprises treating the steel material in an atmosphere containing 1.0 ppm or less of oxygen by volume at a temperature of from 800° C. to 1,200° C. for a time from 1 hour to 20 hours, and cooling the annealed steel material after the annealing from the annealing temperature to 300° C. at an average cooling rate of no more than 200° C./hour. 3. The method according to claim 2 , wherein the annealing temperature is from 800° C. to 1,100° C. 4. The method according to claim 2 , wherein the annealing temperature is from 800° C. to 1,000° C. 5. The method according to claim 2 , wherein the annealing time is 10 hours or less. 6. The steel material according to claim 2 , wherein the average cooling rate is no more than 150° C./hour. 7. The steel material according to claim 2 , wherein the average cooling rate is no more than 100° C./hour. 8. The steel material according to claim 1 which has a corrosion resistance characterized by a rust area ratio of less than 10% after immersion of a test piece of the steel material having size of 8 mm in diameter×8 mm in length in 1% H 2 SO 4 stirred for from 24 to 36 hours at room temperature. 9. An iron core, magnetic shield material, or an actuator member for an electromagnetic valve, solenoid, relay or other electromagnetic component, comprising the steel material according to claim 1 .