Sealed pipe joint

What is claimed is: 1. A pipe string ( 102 ), comprising: a pipe joint ( 100 ) that connects first and second threaded ends ( 104 , 106 ) of a pair of pipe sections ( 110 , 112 ), said pipe joint having first and second joint ends ( 114 , 116 ), said joint ends including a first joint end ( 116 ) having facewise adjacent, directly abutting first axial sealing surfaces ( 50 , 52 ) that are perpendicular to a longitudinal axis of the pipe joint, wherein a second joint end ( 114 ) of said joint ends has a ring-shaped cutout ( 121 ) lying adjacent to a second axial sealing surface ( 130 ), so said second joint end has a short second end ( 125 ) that is spaced from said second axial sealing surface ( 130 ) that is perpendicular to the longitudinal axis of the pipe joint, the second joint end also having a ring-shaped spacer ( 120 ), formed of a substantially incompressible material, located between and directly axially abutting said short second end ( 125 ), at a sealing or abutting axial face ( 132 ) that is also perpendicular to the longitudinal axis of the pipe joint, and said second axial sealing surface ( 130 ), and wherein said ring-shaped spacer ( 120 ) is sized and configured such that the first axial sealing surfaces ( 50 , 52 ), the spacer ( 120 ), the short second end ( 125 ) at the abutting face ( 132 ), and the second axial sealing surface ( 130 ) are each loaded in the axial direction of the pipe ( 102 ) when the pipe joint ( 100 ) is fully assembled. 2. The pipe string as claimed in claim 1 , wherein said pipe joint has radially inner (I) and outer (O) sides, and said cutout and said spacer both lie at said inner side. 3. The pipe string as claimed in claim 1 , wherein said threaded ends of said pair of pipe sections have threads ( 20 , 22 ) that are threaded together, with said threads ( 20 , 22 ) lying between said first joint end ( 34 ) that forms said first sealing surfaces ( 50 , 52 ) and said second joint end ( 32 ), whereby to initially hold said threads under tension. 4. The pipe string as claimed in claim 1 , wherein said pipe sections and said spacer are each formed of steel. 5. The pipe string as claimed in claim 1 wherein the substantially incompressible material is a metal. 6. The pipe string as claimed in claim 1 , wherein the ring-shaped spacer is substantially rigid. 7. The pipe string as claimed in claim 1 , wherein the first and second threaded ends ( 104 , 106 ) have threads that comprise a cylindrical wall ( 186 ) and a thread groove wall ( 184 ) and at least a portion of the thread groove wall has an annular array of alternating projections ( 182 ) and depressions. 8. The pipe string as claimed in claim 7 , wherein the projections are comprised of material displaced by forming the depressions. 9. The pipe string as claimed in claim 7 , wherein the cylindrical walls ( 186 ) of the threads are free of such alternating projections ( 182 ) and depressions. 10. The pipe string as claimed in claim 7 , wherein the projections ( 182 ) have a height H of about 0.004 inch and width of about 0.030 inch. 11. The pipe string as claimed in claim 1 , wherein the axial sealing surfaces have corners ( 86 ) with a radius of curvature of less than 0.05 inch and at least a portion of the inner surface of the pipe string has a corrosion-resistant cladding that extends at least to the first and second joint ends that lie facewise adjacent to each other but does not extend around the corners ( 86 ). 12. The pipe string as claimed in claim 11 , wherein the cladding extends only a distance M, N on either side of the inside ( 80 ) of an abutment between the first and second joint ends ( 114 , 116 ), and wherein M and N are no more than half each pipe section length. 13. The pipe string as claimed in claim 1 , wherein the axial sealing surfaces ( 40 , 42 ) have rounded corners ( 82 , 84 ) with a radius of curvature greater than 0.05 inch and at least a portion of the inner surface ( 44 ) of the pipe string proximate the first and second joint ends that lie facewise adjacent to each other has a corrosion-resistant cladding ( 70 , 72 , 74 , 76 ) that extends around the corners ( 82 , 84 ) and covers abutting sealing surfaces ( 40 , 42 ) on the second joint end ( 32 ). 14. A method for installing a pipe string first and second threaded end portions ( 32 , 34 ) of pairs of adjacent pipe sections are threadably connected to form a pipe joint 100 with opposing first and second joint ends ( 114 , 116 ), with the threads tightened so axial sealing surfaces ( 50 , 52 ) of said first and second pipe section ends which are perpendicular to the longitudinal axis of the pipe string directly axially abut each other, including comprising: constructing said first joint end with a cutout ( 121 ) at a first end part; and installing a ring-shaped spacer ( 120 ) in said cutout, said ring-shaped spacer ( 120 ) being formed of a substantially incompressible material and provided with an axial length (T) that permits the axial sealing surfaces ( 50 , 52 ) to axially abut each other when opposing axial faces ( 130 , 132 ) of the ring-shaped spacer ( 120 ) are fully seated on opposing radial shoulders ( 122 , 124 ) on a pipe end portion ( 104 ) and a pipe section ( 112 ), and are perpendicular to the longitudinal axis of the pipe string. 15. The method as claimed in claim 14 , wherein the axial length of the ring-shaped spacer installed is such that the axial sealing surfaces ( 50 , 52 ) of said first joint end and axial surfaces of the second joint end are each loaded in the axial direction of the pipe ( 102 ) when the pipe joint is fully assembled.