High strength thick-walled electric-resistance-welded steel pipe for deep-well conductor casing, method for manufacturing the same, and high-strength thick-walled conductor casing for deep wells

The invention claimed is: 1. A high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing, the steel pipe having a chemical composition consisting of: C: 0.01% to 0.12%, by mass %; Si: 0.05% to 0.50%, by mass %; Mn: 1.0% to 2.2%, by mass %; P: 0.03% or less, by mass %; S: 0.005% or less, by mass %; Al: 0.001% to 0.10%, by mass %; N: 0.006% or less, by mass %; Nb: 0.010% to 0.100%, by mass %; Ti: 0.001% to 0.050%, by mass %; optionally at least one Group selected from group consisting of A and B: Group A: at least one selected from the group consisting of: V: 0.1% or less, by mass %, Cr: 0.5% or less, by mass %, Ni: 1.0% or less, by mass %, and B: 0.0030% or less, by mass %, and Group B: at least one selected from the group consisting of: Ca: 0.0005% to 0.0050%, by mass %, and REM: 0.0005% to 0.0050%, by mass %; and Fe and incidental impurities, wherein the steel pipe has: (i) an electric-resistance-welded portion that has a tensile strength TS of 625 MPa or more and an absorbed energy vE −40 in a Charpy impact test at a test temperature of −40° C. of 27 J or more, and (ii) a base material portion that has a yield strength YS of 555 MPa or more, a tensile strength TS of 625 MPa or more and an absorbed energy vE −40 in a Charpy impact test at a test temperature of −40° C. of 27 J or more, the base material portion has a yield strength YS of 555 MPa or more and a tensile strength TS of 625 MPa or more after post-weld heat treatment performed at a temperature in a range of more than 500° C. and less than 600° C., the steel pipe has a structure in the electric-resistance-welded portion of the steel pipe, the structure composed of 90% or more by volume of a bainitic ferrite phase as a main phase and 10% or less by volume of a second phase, the bainitic ferrite phase having an average grain size of 10 μm or less, and the structure containing fine Nb precipitates having a particle size of less than 20 nm dispersed in the base material portion, a ratio of fine Nb precipitates to a total amount of Nb being more than 75% on a Nb equivalent basis, and a circularity of an end portion of the steel pipe defined by formula (1) being 0.6% or less, circularity (%)={(maximum outer diameter mmϕ of steel pipe)−(minimum outer diameter mmϕ of steel pipe)}/(nominal outer diameter mmϕ)×100   formula (1). 2. The high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 1 , wherein C: more than 0.04% to 0.12%, by mass %. 3. The high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 1 , wherein the absorbed energy of the electric-resistance-welded portion is 162 J or more, and the absorbed energy of the base material portion is 135 J or more. 4. A method for manufacturing the high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 1 , the method comprising: continuously rolling a hot-rolled steel plate having the chemical composition with a roll forming machine to form an open pipe having a circular cross section; butting edges of the open pipe; electric-resistance-welding a portion where the edges are being butted while pressing the butted edges to contact each other by squeeze rolls to form an electric-resistance-welded steel pipe; subjecting the electric-resistance-welded portion of the electric-resistance-welded steel pipe to in-line heat treatment; and reducing a diameter of the electric-resistance-welded steel pipe by rolling, wherein: the hot-rolled steel plate is manufactured by: heating to soak a steel at a heating temperature in the range of 1150° C. to 1250° C. for 60 minutes or more, hot-rolling the steel with a finishing delivery temperature of 750° C. or more, after completion of the hot rolling, subjecting the hot-rolled steel plate to accerelated cooling such that an average cooling rate in a temperature range of 750° C. to 650° C. at the center of plate thickness ranges from 8° C./s to 70° C./s, and coiling the hot-rolled steel plate at a coiling temperature of more than 580° C. and 700° C. or less. 5. The method for manufacturing a high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 4 , wherein the roll forming machine includes a cage roll group composed of a plurality of rolls and a fin pass forming roll group composed of a plurality of rolls. 6. The method for manufacturing a high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 5 , wherein two or more portions of an inner wall of the hot-rolled steel plate are pressed with an inner roll disposed downstream of the cage roll group during a forming process. 7. The method for manufacturing a high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 4 , wherein the in-line heat treatment of the electric-resistance-welded portion includes heating the electric-resistance-welded portion to a heating temperature in the range of 830° C. to 1150° C. and cooling the electric-resistance-welded portion to a cooling stop temperature of 550° C. or less at the center of the plate thickness such that an average cooling rate in a temperature range of 800° C. to 550° C. at the center of the plate thickness ranges from 10° C./s to 70° C./s. 8. The method for manufacturing a high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 4 , wherein a reduction ratio in the reducing rolling is in the range of 0.2% to 3.3%. 9. The method for manufacturing a high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 7 , wherein a reduction ratio in the reducing rolling is in the range of 0.2% to 3.3%. 10. A high-strength thick-walled conductor casing for deep wells, the conductor casing comprising a screw member disposed on each end of the high-strength thick-walled electric-resistance-welded steel pipe for a deep-well conductor casing according to claim 1 .