| CPC C21D 9/46 (2013.01) [C21D 8/1222 (2013.01); C21D 8/1233 (2013.01); C21D 8/1255 (2013.01); C21D 8/1261 (2013.01); C21D 8/1266 (2013.01); C21D 8/1272 (2013.01); C21D 8/1283 (2013.01); C22C 38/001 (2013.01); C22C 38/002 (2013.01); C22C 38/008 (2013.01); C22C 38/02 (2013.01); C22C 38/04 (2013.01); C22C 38/06 (2013.01); C22C 38/42 (2013.01); C22C 38/44 (2013.01); C22C 38/46 (2013.01); C22C 38/48 (2013.01); C22C 38/50 (2013.01); C22C 38/54 (2013.01); C22C 38/60 (2013.01); C21D 2201/05 (2013.01)] | 6 Claims |
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1. A method for producing a grain oriented electrical steel sheet,
the method comprising:
a hot rolling process of hot-rolling a steel piece to obtain a hot rolled steel sheet, the steel piece including, as a chemical composition, by mass %,
0.030 to 0.100% of C,
0.80 to 7.00% of Si,
0.01 to 1.00% of Mn,
0 to 0.060% in total of S and Se,
0.010 to 0.065% of acid soluble Al,
0.004 to 0.012% of N,
0 to 0.30% of Cr,
0 to 0.40% of Cu,
0 to 0.50% of P,
0 to 0.30% of Sn,
0 to 0.30% of Sb,
0 to 1.00% of Ni,
0 to 0.008% of B,
0 to 0.15% of V,
0 to 0.20% of Nb,
0 to 0.10% of Mo,
0 to 0.015% of Ti,
0 to 0.010% of Bi, and
a balance consisting of Fe and impurities;
a cold rolling process of cold-rolling the hot rolled steel sheet to obtain a cold rolled steel sheet;
a decarburization annealing process of decarburization-annealing the cold rolled steel sheet to obtain a decarburization annealed sheet;
an annealing separator applying process of applying and drying an annealing separator including Al2O3 and MgO to the decarburization annealed sheet;
a final annealing process of final-annealing the decarburization annealed sheet after applying the annealing separator to obtain a final annealed sheet;
an annealing separator removing process of removing a redundant annealing separator from a surface of the final annealed sheet;
a smoothing process of smoothing the surface of the final annealed sheet after removing the redundant annealing separator; and
an insulation coating forming process of forming an insulation coating on the surface of the final annealed sheet after being smoothed,
wherein, in the decarburization annealing process,
PH2O/PH2 which is an oxidation degree of an atmosphere is 0.18 to 0.80, an annealing temperature is 750 to 900° C., and a holding time is 10 to 600 seconds,
wherein, in the annealing separator applying process,
MgO/(MgO+Al2O3)×100 which is a mass ratio of MgO and Al2O3 is 5 to 50%, and a hydration water is 1.5 mass % or less in the annealing separator,
wherein, in the final annealing process,
the decarburization annealed sheet after applying the annealing separator is held at 1100 to 1200° C. for 10 hours or more in a mixed gas atmosphere including 50 volume % or more of hydrogen,
wherein, in the annealing separator removing process,
the final annealed sheet is water-washed using a solution with an inhibitor which is at least one of a triethanolamine, a rosinamine, or a mercaptan,
the final annealed sheet after water-washing is pickled using an acidic solution whose volume concentration is less than 20%, and
an amount of an iron hydroxide and an iron oxide on the surface of the final annealed sheet is controlled to 0.9 g/m2 or less per a side,
wherein, in the smoothing process,
the final annealed sheet after removing the redundant annealing separator and after exposing the surface thereof is annealed without applying an annealing separator at 1000° C. or more in a mixed gas atmosphere including 50 volume % or more of hydrogen or carbon monoxide, and
wherein, in the insulation coating forming process,
the insulation coating is formed on the surface of the final annealed sheet after being smoothed by applying an insulation coating forming solution which mainly includes a phosphate or a colloidal silica, by baking at 350 to 600° C., and then by heat-treating at 800 to 1000° C.
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