Pipe element having wedging groove

What is claimed is: 1. A pipe element having first and second oppositely disposed ends, said pipe element comprising: a sidewall surrounding a longitudinal axis and defining a bore, said sidewall having an outer surface; a first groove positioned in said outer surface, said first groove extending circumferentially around said bore and positioned proximate to said first end, said first groove being defined by a first plurality of sub-surfaces of said outer surface including: a first sub-surface oriented at an angle with respect to said longitudinal axis and facing away from said first end; a second sub-surface oriented at an angle with respect to said longitudinal axis, said second sub-surface being in spaced relation away from and facing toward said first sub-surface; a third sub-surface contiguous with said first sub-surface, said third sub-surface oriented at a non-zero angle with respect to said longitudinal axis and sloping toward said second sub-surface; and a fourth sub-surface contiguous with said third and second sub surfaces, said fourth sub-surface being oriented at an angle with respect to to said longitudinal axis; wherein a diameter of said outer surface adjacent to said first sub-surface and outside of said first groove and a diameter of said outer surface adjacent to said second sub-surface and outside of said first groove are substantially the same. 2. The pipe element according to claim 1 , wherein said first sub-surface has an orientation angle from 80° to 90° with respect to said longitudinal axis. 3. The pipe element according to claim 1 , wherein said first sub-surface has an orientation angle of 89° with respect to said longitudinal axis. 4. The pipe element according to claim 1 , wherein said third sub-surface has an orientation angle from 1° to 25° with respect to said longitudinal axis. 5. The pipe element according to claim 1 , wherein said third sub-surface has an orientation angle of 10° with respect to said longitudinal axis. 6. The pipe element according to claim 1 , wherein said second sub-surface has an orientation angle of 90° with respect to said longitudinal axis. 7. The pipe element according to claim 1 , wherein said second sub-surface has an orientation angle from 40° to 70° with respect to said longitudinal axis. 8. The pipe element according to claim 1 , wherein said second sub-surface has an orientation angle of 50° with respect to said longitudinal axis. 9. The pipe element according to claim 1 , wherein said fourth sub-surface has an orientation angle from +5° to −5° with respect to said longitudinal axis. 10. The pipe element according to claim 1 , said pipe element further comprising: a second groove positioned in said outer surface, said second groove extending circumferentially around said bore and positioned proximate to said second end, said second groove being defined by a second plurality of sub-surfaces of said outer surface including: a fifth sub-surface oriented at an angle with respect to said longitudinal axis and facing away from said second end; a sixth sub-surface oriented at an angle with respect to said longitudinal axis, said sixth sub-surface being in spaced relation away from and facing toward said fifth sub-surface; a seventh sub-surface contiguous with said fifth sub-surface, said seventh sub-surface oriented at an angle with respect to said longitudinal axis and sloping toward said sixth sub-surface; and an eighth sub-surface contiguous with said seventh and sixth sub surfaces, said eighth sub-surface oriented at an angle with respect to said longitudinal axis. 11. The pipe element according to claim 10 , wherein said first and fifth sub-surfaces have an orientation angle from 80° to 90° with respect to said longitudinal axis. 12. The pipe element according to claim 10 , wherein said first and fifth sub-surfaces have an orientation angle 89° with respect to said longitudinal axis. 13. The pipe element according to claim 10 , wherein said third and seventh sub-surfaces have an orientation angle from 1° to 25° with respect to said longitudinal axis. 14. The pipe element according to claim 10 , wherein said third and seventh sub-surfaces have an orientation angle of 10° with respect to said longitudinal axis. 15. The pipe element according to claim 10 , wherein said second and sixth sub-surfaces have an orientation angle of 90° with respect to said longitudinal axis. 16. The pipe element according to claim 10 , wherein said second and sixth sub-surfaces have an orientation angle from 40° to 70° with respect to said longitudinal axis. 17. The pipe element according to claim 10 , wherein said second and sixth sub-surfaces have an orientation angle of 50° with respect to said longitudinal axis. 18. The pipe element according to claim 10 , wherein said fourth and eighth sub-surfaces have an orientation angle from +5° to −5° with respect to said longitudinal axis. 19. A method of assembling a coupling having an arcuate projection with a pipe element, said pipe element comprising: a sidewall surrounding a longitudinal axis and defining a bore, said sidewall having an outer surface; a first groove positioned in said outer surface, said first groove extending circumferentially around said bore and positioned proximate to said first end, said first groove being defined by a first plurality of sub-surfaces of said outer surface including: a first sub-surface oriented at an angle with respect to said longitudinal axis and facing away from said first end; a second sub-surface oriented at an angle with respect to said longitudinal axis, said second sub-surface being in spaced relation away from and facing toward said first sub-surface; a third sub-surface contiguous with said first sub-surface, said third sub-surface oriented at a non-zero angle with respect to said longitudinal axis and sloping toward said second sub-surface; and a fourth sub-surface contiguous with said third and second sub surfaces, said fourth sub-surface being oriented at an angle with respect to said longitudinal axis; said method comprising: contacting said third sub-surface of said groove with a portion of said arcuate projection; contacting said second sub-surface of said groove with another portion of said arcuate projection. 20. A method of using a coupling having an arcuate projection engaged with a groove of a pipe element according to claim 1 , said method comprising: applying a tensile force between said pipe element and said coupling, thereby causing a portion of said arcuate projection to engage said first sub-surface and another portion of said arcuate projection to engage said third sub-surface. 21. A pipe element having an end and a longitudinal axis, said pipe element comprising: a circumferential groove adjacent said end, said groove comprising: a first sub-surface facing away from said end and oriented perpendicularly to said longitudinal axis; a second sub-surface oriented at an angle with respect to said longitudinal axis, said second sub-surface being in spaced relation away from and facing toward said first sub-surface; a point of maximum depth located between said first and second sub-surfaces; and a third sub-surface extending between said point of maximum depth and said first sub-surface, wherein an outer diameter of said pipe element adjacent to said first sub-surface and outside of said circumferential groove and an outer diameter of said pipe element adjacent to said second sub-surface and outside of said circu