Fe-based electroplated steel sheet and galvannealed steel sheet, and methods of producing same

The invention claimed is: 1 . A method of producing an Fe-based electroplated steel sheet, comprising: continuously subjecting a cold-rolled steel sheet having a chemical composition containing Si in an amount of 0.1 mass % or more and 3.0 mass % or less to Fe-based electroplating to obtain an Fe-based electroplated steel sheet with an Fe-based electroplating layer formed on one or both surfaces of the cold-rolled steel sheet with a coating weight A (g/m 2 ) per surface of 1.0 g/m 2 or more; and then continuously subjecting the Fe-based electroplated steel sheet to an annealing process in which the Fe-based electroplated steel sheet is held in a temperature range of 650° C. to 900° C. in an atmosphere having a dew point B (° C.), wherein the method further comprises, during the annealing process: (i) acquiring a value of the coating weight A for the Fe-based electroplating layer on the steel sheet undergoing the annealing process; (ii) substituting the acquired value of the coating weight A into the following formula (1): A+B≥ 3.0  (1), to calculate whether the formula (1) is satisfied by a sum of said acquired value of coating weight A and the dew point B of the annealing atmosphere; and (iii) if the formula (1) is calculated not to be satisfied, actively adjusting at least one of the dew point B of the annealing atmosphere for the steel sheet currently undergoing the annealing process, or the coating weight A for a subsequent portion of the continuously subjected cold-rolled steel sheet upstream of the annealing process, to satisfy the formula (1). 2 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , further comprising, after the annealing process, subjecting the Fe-based electroplated steel sheet to hot-dip galvanizing to form an unalloyed hot-dip galvanized layer on a surface of the Fe-based electroplating layer. 3 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , wherein in step (ii), the calculation is performed to determine whether or not the sum of the acquired value of coating weight A and the dew point B of the annealing atmosphere satisfy the following formula (1)′: A+B≥ 8.0  (1)′, and in step (iii), if formula (1)′ is calculated not to be satisfied, actively adjusting at least one of the dew point B of the annealing atmosphere for the steel sheet currently undergoing the annealing process, or the coating weight A for a subsequent portion of the continuously subjected cold-rolled steel sheet upstream of the annealing process, to satisfy the formula (1)′. 4 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , comprising, before the annealing process, heating the Fe-based electroplated steel sheet with an average heating rate of 10° C./s or higher in a temperature range of 400° C. to 650° C. 5 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , wherein the coating weight A is less than 5.0 g/m 2 . 6 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , wherein the chemical composition of the cold-rolled steel sheet contains, in mass %, C: 0.8% or less, Si: 0.1% or more and 3.0% or less, Mn: 1.0% or more and 12.0% or less, P: 0.1% or less, S: 0.03% or less, N: 0.010% or less, and Al: 1.0% or less, optionally at least one element selected from the group consisting of B: 0.005% or less, Ti: 0.2% or less, Cr: 1.0% or less, Cu: 1.0% or less, Ni: 1.0% or less, Mo: 1.0% or less, Nb: 0.20% or less, V: 0.5% or less, Sb: 0.020% or less, Ta: 0.1% or less, W: 0.5% or less, Zr: 0.1% or less, Sn: 0.20% or less, Ca: 0.005% or less, Mg: 0.005% or less, and REM: 0.005% or less, with the balance being Fe and inevitable impurities. 7 . The method of producing an Fe-based electroplated steel sheet according to claim 1 , wherein the Fe-based electroplating is performed in a plating bath containing at least one element selected from the group consisting of B, C, P, N, O, Ni, Mn, Mo, Zn, W, Pb, Sn, Cr, V, and Co, so that the at least one element is contained in the Fe-based electroplating layer in a total amount of 10 mass % or less. 8 . A method of producing a chemical-conversion-treated steel sheet, comprising: the method of producing an Fe-based electroplated steel sheet as recited in claim 1 ; and then subjecting the Fe-based electroplated steel sheet to a chemical conversion treatment to obtain a chemical-conversion-treated steel sheet with a chemical conversion layer formed in contact with the Fe-based electroplated steel sheet. 9 . A method of producing an electrodeposition-coated steel sheet, comprising: the method of producing a chemical-conversion-treated steel sheet as recited in claim 8 ; and subjecting the chemical-conversion-treated steel sheet to electrodeposition coating to obtain an electrodeposition-coated steel sheet with an electrodeposition coating layer formed in contact with the chemical conversion layer. 10 . A method of producing an automotive part, comprising: the method of producing an electrodeposition-coated steel sheet as recited in claim 9 ; and producing an automotive part using at least in part the electrodeposition-coated steel sheet. 11 . A method of producing a galvannealed steel sheet, comprising: continuously subjecting a cold-rolled steel sheet having a chemical composition containing Si in an amount of 0.1 mass % or more and 3.0 mass % or less to Fe-based electroplating to obtain an Fe-based electroplated steel sheet with an Fe-based electroplating layer formed on one or both surfaces of the cold-rolled steel sheet with a coating weight A (g/m 2 ) per surface of 1.0 g/m 2 or more; then continuously subjecting the Fe-based electroplated steel sheet to an annealing process in which the Fe-based electroplated steel sheet is held in a temperature range of 650° C. to 900° C. in an atmosphere having a dew point B (° C.); then continuously subjecting the Fe-based electroplated steel sheet to hot-dip galvanizing to form an unalloyed hot-dip galvanized layer on a surface of the Fe-based electroplating layer; and then continuously heating and alloying the hot-dip galvanized layer to obtain a galvannealed steel sheet with a galvannealed layer formed on one or both surfaces of the cold-rolled steel sheet, wherein the method further comprises, during the annealing process: (i) acquiring a value of the coating weight A for the Fe-based electroplating layer on the steel sheet undergoing the annealing process; (ii) substituting the acquired value of the coating weight A into the following formula (2): A+B≥ 5.0  (2), to calculate whether the formula (2) is satisfied by a sum of said acquired value of coating weight A and the dew point B of the annealing atmosphere; and (iii) if the formula (2) is calculated not to be satisfied, actively adjusting at least one of the dew point B of the annealing atmosphere for the steel sheet currently undergoing the annealing process, or the coating weight A for a subsequent portion of the continuously subjected cold-rolled steel sheet upstream of the annealing process, to satisfy the formula (2). 12 . The method of producing a galvannealed steel sheet according to claim 11 , wherein in step (ii), the calculation is performed to determine whether or not the sum of the acquired value of coating weight A and the dew point B of the annealing atmosphere satisfy the following formula (2)′: A+B≥ 10.0  (2)′, and in step (iii), if formula (2)′ is calculated not to be satisfied, actively adjusting at least one of the dew point B of