Pipeline and manufacturing method thereof

The invention claimed is: 1. A pipeline comprising a plurality of weld zones where ends of a plurality of steel pipes are joined by welding, wherein: the plurality of the steel pipes are produced from a plurality of charges of molten steel having one or more steel compositions, by mass %, C: 0.04% or more and 0.15% or less, Mn: 1.0% or more and 1.75% or less, Nb: 0.005% or more and 0.10% or less, Ti: 0.005% or more and 0.02% or less, Al: 0.001% or more and 0.06% or less, Si: limited to 0.4% or less, P: limited to 0.015% or less, S: limited to 0.005% or less, N: limited to 0.007% or less, and Cu: 0.1% or more and 1.0% or less, Ni: 0.1% or more and 1.0% or less, Cr: 0.1% or more and 1.0% or less, Mo: 0.05% or more and 0.3% or less, and V: 0.01% or more and 0.1% or less, and a balance consisting of Fe and unavoidable impurities, a yield point elongation is present on a stress-strain curve that is obtained when stress is applied in a longitudinal direction of each of the steel pipes; t which is a thickness of each of the steel pipes in units of mm and D which is an average pipe outside-diameter in units of mm satisfy a following Expression 5; ΔYS which is a yield strength difference between one steel pipe and the other steel pipe that are welded to each other in units of MPa, and YR which represents a yield ratio that is a ratio of the yield strength to a tensile strength of a pipe having a low yield strength out of the one steel pipe and the other steel pipe, satisfy a following Expression 6: t/D× 100≤6  (5) Δ YS≤− 0.69× YR+ 125  (6), wherein a ΔCeq value which is an absolute value of a difference of Ceq values expressed by a following Expression 8 between the one steel pipe and the other steel pipe is 0.045% or less, and the tensile strength of the plurality of the steel pipes is 450 MPa to 850 MPa or less, Ceq =[C]+[Mn]/6+([Ni]+[Cu])/15+([Cr]+[Mo]+[V])/5  (8) wherein [C], [Mn], [Ni], [Cu], [Cr], [Mo], and [V] represent amounts of C, Mn, Ni, Cu, Cr, Mo, and V by mass %. 2. The pipeline according to claim 1 , wherein front and rear surfaces of the plurality of the steel pipes are coated with thermosetting resin. 3. A method of producing the pipeline according to claim 1 , comprising: a second yield strength measuring process in which the yield strength of the plurality of the steel pipes is measured; and a third welding process in which steel pipes in which the ΔYS satisfies the Expression 6 are welded. 4. A method of producing the pipeline according to claim 1 , comprising: a second assigning process in which production numbers capable of specifying each of the steel pipes are assigned to the plurality of the steel pipes in order of rolling; and a forth welding process in which steel pipes produced from the same molten steel and having a difference between the production numbers of 1 or more and 5 or less are welded. 5. A pipeline comprising a plurality of weld zones where ends of a plurality of steel pipes are joined by welding, wherein: the plurality of the steel pipes are produced from a plurality of charges of molten steel having one or more steel compositions, by mass %, C: 0.04% or more and 0.15% or less, Mn: 1.0% or more and 1.75% or less, Nb: 0.005% or more and 0.10% or less, Ti: 0.005% or more and 0.02% or less, Al: 0.001% or more and 0.06% or less, Si: limited to 0.4% or less, P: limited to 0.015% or less, S: limited to 0.005% or less, N: limited to 0.007% or less, and Cu: 0.1% or more and 1.0% or less, Ni: 0.1% or more and 1.0% or less, Cr: 0.1% or more and 1.0% or less, Mo: 0.05% or more and 0.3% or less, and V: 0.01% or more and 0.1% or less, and a balance comprising Fe and unavoidable impurities, a yield point elongation is present on a stress-strain curve that is obtained when stress is applied in a longitudinal direction of each of the steel pipes; t which is a thickness of each of the steel pipes in units of mm and D which is an average pipe outside-diameter in units of mm satisfy a following Expression 5; ΔYS which is a yield strength difference between one steel pipe and the other steel pipe that are welded to each other in units of MPa, and YR which represents a yield ratio that is a ratio of the yield strength to a tensile strength of a pipe having a low yield strength out of the one steel pipe and the other steel pipe, satisfy a following Expression 6: t/D× 100≤6  (5) Δ YS≤− 0.69× YR+ 125  (6), wherein a ΔCeq value which is an absolute value of a difference of Ceq values expressed by a following Expression 8 between the one steel pipe and the other steel pipe is 0.045% or less, and the tensile strength of the plurality of the steel pipes is 450 MPa to 850 MPa or less, Ceq =[C]+[Mn]/6+([Ni]+[Cu])/15+([Cr]+[Mo]+[V])/5  (8) wherein [C], [Mn], [Ni], [Cu], [Cr], [Mo], and [V] represent amounts of C, Mn, Ni, Cu, Cr, Mo, and V by mass %.