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A tubular threaded connection for coupling drill pipe segments to form a drill string is provided. Each of the segments has a tubular pipe body having a wall thickness of 0.5 inches (1.27 cm). The threaded connection comprises a pin end with an external thread, and a box end with an internal thread

A tubular threaded connection for coupling drill pipe segments to form a drill string is provided. Each of the segments has a tubular pipe body having a wall thickness of 0.5 inches (1.27 cm). The threaded connection comprises a pin end with an external thread, and a box end with an internal thread for threadable engagement with the external thread of the pin end. The pin shoulder extends between a pin base diameter and an outer pin bevel diameter; the box shoulder extends between a box base diameter and an outer box bevel diameter. The outer pin and box bevel diameters are between 7.75-8.688 inches (19.36-22.07 cm). The pin and box shoulders define a contact area such that, when the pin and box ends are threaded together with a make-up torque of 75,000 ft-lbs (10,369 kg-m), a load capacity of 2.0 million lbs (908,000 kg) is provided.

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1. A method of forming a tubular threaded connection between adjacent drill pipe segments to form a drill string, the drill string supported by a drilling rig for advancing a downhole tool into the earth to form a wellbore, the method comprising: providing a plurality of the drill pipe segments, eac

1. A method of forming a tubular threaded connection between adjacent drill pipe segments to form a drill string, the drill string supported by a drilling rig for advancing a downhole tool into the earth to form a wellbore, the method comprising: providing a plurality of the drill pipe segments, each of the plurality of drill pipe segments comprising: a tubular pipe body having a first end and a second end and a passage therethrough, the tubular pipe body having a wall thickness of at least 0.5 inches (1.27 cm);a pin end having an external thread on an outer surface thereof, the outer surface of the pin end extending from the first end of the tubular pipe body and terminating at a pin shoulder a distance from the first end; anda box end having an internal thread on an inner surface thereof for threadable engagement with the external thread of the pin end, the inner surface of the box end extending from the second end of the tubular pipe body and terminating at a box shoulder a distance from the second end;wherein the pin shoulder extends between a pin base diameter and an outer pin bevel diameter of the first end of the tubular pipe body and the box shoulder extends between a box base diameter and an outer box bevel diameter of the second end of the tubular pipe body, the outer pin bevel diameter and the outer box bevel diameter being between 7.75 and 8.688inches (19.36-22.07 cm), the pin shoulder and the box shoulder defining a contact area therebetween such that, when the pin end and the box end of the adjacent drill pipe segments are matingly threaded together with a make-up torque of at least 75,000 ft-lbs (10,369 kg-m), a tensile load capacity of over 2.0 million lbs (908,000 kg) is provided; matingly threading together the pin end and the box end of the adjacent drill pipe segments with a make-up torque of at least 75,000 ft-lbs (10,369 kg-m); andproviding the tensile load capacity of over 2.0 million lbs (908,000 kg) by distributing a stress from the make-up torque about the contact area. 2. The method of claim 1, further comprising engaging a slip section of an uppermost of the plurality of drill pipe segments of the drill string with a set of slips, the slip section defining a slip section outer diameter which is larger than a pipe body outer diameter of the pipe body between the slip section and the pin end of the uppermost of the plurality of drill pipe segments. 3. The method of claim 2, further comprising engaging an elevator shoulder with an elevator bushing, the elevator shoulder defining an outer diameter that is larger than an outer diameter of the box end of the uppermost of the plurality of drill pipe segments. 4. A method of forming a tubular threaded connection between adjacent drill pipe segments, each of the drill pipe segments having a tubular pipe body having a first end and a second end and a passage therethrough, the tubular pipe body having a wall thickness of at least 0.5 inches (1.27 cm), the drill string supported by a drilling rig for advancing a downhole tool into the earth to form a wellbore, the tubular threaded connection comprising: providing a plurality of the drill pipe segments, each of the plurality of drill pipe segments comprising: a pin end of a first of the adjacent drill pipe segments, the pin end having an external thread on an outer surface thereof, the outer surface of the pin end extending from the first end of the first of the adjacent drill pipe segments and terminating at a pin shoulder a distance from the first end; anda box end of a second of the adjacent drill pipe segments, the box end having an internal thread on an inner surface thereof for threadable engagement with the external thread of the pin end, the inner surface of the box end extending from the second end of the second of the adjacent drill pipe segments and terminating at a box shoulder a distance from the second end;wherein the pin shoulder extends between a pin base diameter and an outer pin bevel diameter of the first of the adjacent drill pipe segments and the box shoulder extends between a box counterbore diameter and an outer box bevel diameter of the second end of the adjacent drill pipe segments, the outer pin bevel and the outer box bevel diameters being smaller than an outer diameter of the pin end, the outer pin bevel diameter and the outer box bevel diameter being between 7.75 and 8.688 inches (19.69-22.07 cm), the pin base diameter being smaller than the outer pin bevel diameter and the box counterbore diameter being smaller than the outer box bevel diameter, the pin and box shoulders defining a contact area therebetween; andthreadedly connecting a plurality of the tabular pipe bodies having the wall thickness of at least 0.5 inches (1.27 cm) and a tensile load capacity of over 2.0 million lbs (908,000 kg) by matingly threading together the pin end and the box end and applying a make-up torque of at least 75,000 ft-lbs (10,369 kg-m). 5. The method of claim 4, further comprising maintaining a threaded tubular connection between the plurality of drill pipe segments under a load of 2.5 M lbs (1,135,000 kg). 6. A method of forming a tubular threaded connection between adjacent drill pipe segments to form a drill string, the drill string supported by a drilling rig for advancing a downhole tool into the earth to form a wellbore, the method comprising: providing a plurality of the drill pipe segments, each of the plurality of drill pipe segments comprising: a tubular pipe body having a first end and a second end and a passage therethrough, the tubular pipe body having a wall thickness of at least 0.5 inches (1.27 cm);a pin end having an external thread on an outer surface thereof, the outer surface of the pin end extending from the first end of the tubular pipe body and terminating at a pin shoulder a distance from the first end; anda box end having an internal thread on an inner surface thereof for threadable engagement with the external thread of the pin end, the inner surface of the box end extending from the second end of the tubular pipe body and terminating at a box shoulder a distance from the second end;wherein the pin shoulder extends between a pin base diameter and an outer pin bevel diameter of the first end of the tubular pipe body and the box shoulder extends between a box base diameter and an outer box bevel diameter of the second end of the tubular pipe body, the outer pin bevel diameter and the outer box bevel diameter being between 7.75 and 8.688 inches (19.69-22.07 cm), the pin base diameter being smaller than the outer pin bevel diameter and the box counterbore diameter being smaller than the outer box bevel diameter, the pin shoulder and the box shoulder defining a contact area therebetween such that, when the pin end and the box end of the adjacent drill pipe segments are matingly threaded together with a make-up torque of at least 75,000 ft-lbs (10,369 kg-m), a tensile load capacity of over 2.0 million lbs (908,000 kg) is provided; matingly threading together the pin end and the box end of the adjacent drill pipe segments with a make-up torque of at least 75,000 ft-lbs (10,369 kg-m); andproviding the tensile load capacity of over 2.0 million lbs (908,000 kg) by distributing a stress from the make-up torque about the contact area.