Drillable plug

What is claimed is: 1. A drillable plug, comprising: a mandrel having a top end and a lower axial section, wherein the lower axial section comprises a geometry transition point having a transition shoulder separating an upper outer surface having a circular mandrel profile from a lower outer surface having a non-circular mandrel profile, the lower outer surface extending the length of the lower axial section from the geometry transition point to a bottom end of the mandrel; a seal element disposed around the upper outer surface; a lower cone having an inner surface forming a passage, the lower cone disposed around the lower outer surface of the mandrel, wherein the inner surface is configured to mate with the lower outer surface of the mandrel, whereby the lower cone is rotationally locked with the mandrel; and a lower slip assembly moveably disposed on a sloped outer surface of the lower cone, wherein the transition shoulder is shaped so as to prevent the upper outer surface from moving completely into the passage of the lower cone, and wherein axial motion of the mandrel within the drillable plug pushes the lower cone axially along the mandrel to force the lower slip assembly radially outward to engage an inside wall of a casing within which the drillable plug is deployed. 2. The drillable plug of claim 1 , wherein the passage comprises a circular section and a non-circular section. 3. The drillable plug of claim 1 , wherein the passage comprises a circular section disposed about the upper outer surface having the circular mandrel profile and a non-circular section disposed around the lower outer surface having the non-circular mandrel profile. 4. The drillable plug of claim 1 , wherein the seal element comprises an end ring connected to a lower end of the seal element and comprising an axially extending member connectable with the lower cone. 5. The drillable plug of claim 1 , wherein the lower cone comprises a recess formed along the inner surface; and the seal element comprises an end ring connected to a lower end of the seal element and comprising an axially extending member disposed in the recess. 6. The drillable plug of claim 1 , wherein the sloped outer surface is positioned in a groove between opposing side walls. 7. The drillable plug of claim 1 , further comprising: an upper gage ring disposed around the mandrel adjacent the top end; an upper cone disposed around the upper outer surface between the upper gage ring and the seal element; and an upper slip assembly moveably disposed on a sloped outer surface of the upper cone, wherein the sloped outer surface is positioned in a groove between opposing side walls; and wherein the axial motion of the mandrel within the drillable plug pushes the upper cone axially along the mandrel to force the upper slip assembly radially outward to engage the inside wall of the casing. 8. The drillable plug of claim 1 , further comprising: an upper gage ring disposed around the mandrel adjacent the top end; an upper cone disposed around the upper outer surface between a lower face of the upper gage ring and the seal element; and an upper slip assembly comprising an upper end and a slip base, the upper end rotationally locked with the upper gage ring and the slip base moveably disposed on a sloped outer surface of the upper cone; and wherein the axial motion of the mandrel within the drillable plug pushes the upper cone axially along the mandrel to force the upper slip assembly radially outward to engage the inside wall of the casing. 9. The drillable plug of claim 1 , further comprising: an upper gage ring disposed around the mandrel adjacent the top end and having a lower face forming a pocket; an upper cone disposed around the upper outer surface between the lower face and the seal element; and an upper slip assembly comprising an upper end and a slip base, the upper end positioned in the pocket and the slip base moveably disposed on a sloped outer surface, wherein the sloped outer surface is located between opposing side walls; and wherein the axial motion of the mandrel within the drillable plug pushes the upper cone axially along the mandrel to force the upper slip assembly radially outward to engage the inside wall of the casing. 10. A method, comprising: milling or drilling through a drillable plug that is set in a wellbore, the drillable plug comprising: a mandrel having a top end and a lower axial section, wherein the lower axial section comprises a geometry transition point having a transition shoulder separating an upper outer surface having a circular mandrel profile from a lower outer surface having a non-circular mandrel profile, the lower outer surface extending the length of the lower axial section from the geometry transition point to a bottom end of the mandrel; an upper gage ring disposed around the mandrel adjacent the top end; a seal element disposed around the upper outer surface; an upper cone disposed around the upper outer surface between the upper gage ring and the seal element; an upper slip assembly moveably disposed on a sloped outer surface of the upper cone; a lower cone having an inner surface forming a passage, the lower cone disposed around the lower outer surface of the mandrel, wherein the inner surface is configured to mate with the lower outer surface of the mandrel, whereby the lower cone is rotationally locked with the mandrel; and a lower slip assembly moveably disposed on a sloped outer surface of the lower cone, wherein the transition shoulder is shaped so as to prevent the upper outer surface from moving completely into the passage of the lower cone, and wherein axial motion of the mandrel within the drillable plug pushes the upper and lower cones axially along the mandrel to force the upper and lower slip assemblies radially outward to engage an inside wall of a casing within which the drillable plug is deployed. 11. The method of claim 10 , wherein the passage comprises a circular section and a non-circular section. 12. The method of claim 10 , wherein the passage comprises a circular section disposed about the upper outer surface having the circular mandrel profile and a non-circular section disposed around the lower outer surface having the non-circular mandrel profile. 13. The method of claim 10 , wherein the seal element comprises an end ring connected to a lower end of the seal element and comprising an axially extending member connectable with the lower cone. 14. The method of claim 10 , wherein the lower cone comprises a recess formed along the inner surface; and the seal element comprises an end ring connected to a lower end of the seal element and comprising an axially extending member disposed in the recess. 15. The method of claim 10 , wherein the sloped outer surface of the upper cone is positioned in a groove between opposing side walls and the sloped outer surface of the lower cone is positioned in a groove between opposing side walls. 16. The method of claim 10 , wherein the upper slip assembly comprises an upper end and a slip base, the upper end rotationally locked with the upper gage ring and the slip base is moveably disposed on the sloped outer surface of the upper cone. 17. The method of claim 16 , wherein the sloped outer surface of the upper cone is disposed in a groove disposed between opposing side walls. 18. The method of claim 10 , wherein the upper gage ring comprises a lower face forming a pocket; and the upper slip assembly comprises an upper end and a slip base, the upper end positioned in the pocket and t