Electric resistance welded steel pipe or tube and production method for electric resistance welded steel pipe or tube

The invention claimed is: 1. A method of producing an electric resistance welded steel pipe or tube, the method comprising: electric resistance welding a steel sheet to form an electric resistance welded steel pipe or tube that includes an electric resistance weld portion having a bond width of 40×10 −6 m or more and 120×10 −6 m or less and in which a depth of a total decarburized layer in each of an inner surface layer and an outer surface layer is 50×10 −6 m or less, the steel sheet having a chemical composition containing, in mass %, C: 0.15% to 0.40%, Si: 0.05% to 0.50%, Mn: 0.30% to 2.00%, Al: 0.01% to 0.10%, Ti: 0.001% to 0.04%, B: 0.0005% to 0.0050%, and N: 0.0010% to 0.0100%, with a balance consisting of Fe and inevitable impurities, a Ti content and a N content satisfying the following Formula (1) (N/14)<(Ti/47.9)  (1) where N is the N content in mass % and Ti is the Ti content in mass %; and thereafter normalizing the electric resistance welded steel pipe or tube under conditions that C 0 -C* 1 is 0.05 mass % or less where C 0 -C* 1 is a difference between C* 1 and C 0 , C* 1 in mass % is a calculated value of a minimum C content of the electric resistance weld portion according to the following Formula (2) C* 1 =C 0 −(C 0 −0.09)erf( h ′)  (2) where C O is the C content in mass % of the steel sheet, h′=h/(Dt) 1/2 , h is the bond width divided by 2 and in units of meters, D in units of m 2 /s=D O exp(−Q/RT), D 0 =4.7×10 −5 m 2 /s, Q=155 kJ/mol·K, R=8.31 J/mol·K, T is a maximum heating temperature in Kelvin in the normalizing, and t is a time in units of seconds during which the electric resistance welded steel pipe or tube is held in a temperature range of (T-50 K) to T in the normalizing, and C O in mass % is a C content of the steel sheet, in an atmosphere that is composed of C 0 , CO 2 , H 2 , H 2 O, and a gas neutral to C and Fe and satisfies the following Formulas (3) and (4), (P CO ) 2 /P CO2 ≥K· a C γ   (3) P H2 ·P CO /P H2O ≥K′· a C γ   (4) where log(K)=−9460/T−1.26 log(T)+13.52, K′=exp[−(131300−134.3T)/RT], a C γ =x C γ ·exp[(G C γ +Ω FeC γ −G C gr )·RT]·exp[(−2Ω FeC γ ·x C γ ·x M γ )/RT], G C γ −G C gr =73744 J/mol, 2Ω FeC γ =−51956 J/mol, W MnC γ =+41900 J/mol, W SiC γ =+125700 J/mol, W CrC γ =−104750 J/mol, P CO is a partial pressure in units of atm of CO in a furnace atmosphere, P CO2 is a partial pressure in units of atm of CO 2 in the furnace atmosphere, P H2 is a partial pressure in units of atm of H 2 in the furnace atmosphere, P H2O is a partial pressure in units of atm of H 2 O in the furnace atmosphere, R=8.31 J/mol·K, T is the maximum heating temperature in Kelvin in the normalizing, a C γ is an activity of C in austenite phase, x C γ is a mole fraction of C in the austenite phase, x Si γ is a mole fraction of Si in the austenite phase, x Mn γ is a mole fraction of Mn in the austenite phase, x Cr ± is a mole fraction of Cr in the austenite phase, G C γ is a free energy of C in the austenite phase, and G C gr is a free energy of C in graphite. 2. The method of producing an electric resistance welded steel pipe or tube according to claim 1 , wherein the chemical composition further contains, in mass %, one or more selected from the group consisting of Cr: 1.0% or less, Mo: 1.0% or less, W: 1.0% or less, Ni: 1.0% or less, Cu: 1.0% or less, Nb: 0.2% or less, V: 0.2% or less, and Ca: 0.0050% or less. 3. A method of producing an electric resistance welded steel pipe or tube, the method comprising: electric resistance welding a steel sheet to form an electric resistance welded steel pipe or tube that includes an electric resistance weld portion having a bond width of 40×10 −6 m or more and 120×10 −6 m or less and in which a depth of a total decarburized layer in each of an inner surface layer and an outer surface layer is 50×10 −6 m or less, the steel sheet having a chemical composition containing, in mass %, C: 0.15% to 0.40%, Si: 0.05% to 0.50%, Mn: 0.30% to 2.00%, Al: 0.01% to 0.10%, Ti: 0.001% to 0.04%, B: 0.0005% to 0.0050%, and N: 0.0010% to 0.0100%, with a balance consisting of Fe and inevitable impurities, a Ti content and a N content satisfying the following Formula (1) (N/14)<(Ti/47.9)  (1) where N is the N content in mass % and Ti is the Ti content in mass %; and thereafter normalizing the electric resistance welded steel pipe or tube under conditions that C 0 -C* 1 is 0.05 mass % or less where C 0 -C* 1 is a difference between C* 1 and C 0 , C* 1 in mass % is a calculated value of a minimum C content of the electric resistance weld portion according to the following Formula (2) C* 1 =C 0 −(C 0 −0.09)erf( h ′)  (2) where C O is the C content in mass % of the steel sheet, h′=h/(Dt) 1/2 , h is the bond width divided by 2 and in units of meters, D in units of m 2 /s=D 0 exp(−Q/RT), D 0 =4.7×10 −5 m 2 /s, Q=155 kJ/mol·K, R=8.31 J/mol·K, T is a maximum heating temperature in Kelvin in the normalizing, and t is a time in units of seconds during which the electric resistance welded steel pipe or tube is held in a temperature range of (T-50 K) to T in the normalizing, and C O in mass % is a C content of the steel sheet, in an atmosphere that is composed of, in mole fraction in a furnace atmosphere, H 2 : 0% to 10% and O 2 : 80 ppm or less with a balance consisting of H 2 O and N 2 and has a dew point of 0° C. or less. 4. The method of producing an electric resistance welded steel pipe or tube according to claim 3 , wherein the chemical composition further contains, in mass %, one or more selected from the group consisting of Cr: 1.0% or less, Mo: 1.0% or less, W: 1.0% or less, Ni: 1.0% or less, Cu: 1.0% or less, Nb: 0.2% or less, V: 0.2% or less, and Ca: 0.0050% or less.