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A drillable bridge plug includes a mandrel having external splines disposed on an outer surface of the mandrel, a sealing element disposed around the mandrel, an upper cone disposed around the mandrel proximate an upper end of the sealing element, and a lower cone disposed around the mandrel proxima

A drillable bridge plug includes a mandrel having external splines disposed on an outer surface of the mandrel, a sealing element disposed around the mandrel, an upper cone disposed around the mandrel proximate an upper end of the sealing element, and a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines. The drillable bridge plug also includes an upper and a lower slip assembly disposed around the mandrel, and an upper and lower ring assembly each including a first segmented barrier ring, a second segmented barrier ring, and a back-up ring disposed proximate sealing element. Methods include a method of setting the drillable bridge plug and a method of removing the drillable bridge plug.

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1. A drillable bridge plug comprising: a mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sea

1. A drillable bridge plug comprising: a mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sealing element;a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines;an upper slip assembly disposed around the mandrel adjacent a sloped surface of the upper cone;a lower slip assembly disposed around the mandrel adjacent a sloped surface of the lower cone;an upper ring assembly comprising a first upper segmented barrier ring, a second upper segmented barrier ring, and an upper back-up ring disposed proximate the upper end of the sealing element and positioned between the upper end of the sealing element and the upper cone, wherein a plurality of segments disposed in the first upper segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second upper segmented barrier ring;a lower ring assembly comprising a first lower segmented barrier ring, a second lower segmented barrier ring, and a lower back-up ring disposed proximate the lower end of the sealing element and positioned between the lower end of the sealing element and the lower cone, wherein a plurality of segments disposed in the first lower segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second lower segmented barrier ring; anda bottom sub. 2. The tool of claim 1, wherein at least one of the segmented barrier rings comprises a lining. 3. The tool of claim 2, wherein the lining is formed from at least one of a group of materials consisting of a hydrogenated nitrile butadiene rubber (HNBR), a nitrile, and a fluoroelastomer. 4. The tool of claim 1, further comprising an upper element end ring disposed on the upper end of the sealing element and a lower element end ring disposed on the lower end of the sealing element. 5. The tool of claim 4, wherein the external splines and the internal splines are straight splines. 6. The tool of claim 1, wherein at least a portion of an outer surface of the mandrel comprises a first ratchet profile. 7. The tool of claim 6, wherein the first ratchet profile is configured to engage a second ratchet profile disposed on an inner surface of a ratchet sleeve. 8. The tool of claim 1, wherein at least one of the upper slip assembly and the lower slip assembly comprises a set of teeth, wherein the set of teeth is induction heat treated. 9. The tool of claim 1, wherein the sealing element is formed from a composite material. 10. The tool of claim 9, wherein the composite material is a fiber-impregnated phenolic resin. 11. The tool of claim 1, wherein at least one of the upper back-up ring and the lower the back-up ring is formed from a phenolic material. 12. A drillable bridge plug comprising: a mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sealing element;a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines;an upper slip assembly disposed around the mandrel adjacent sloped surface of the upper cone;a lower slip assembly disposed around the mandrel adjacent a sloped surface of the lower cone;an upper ring assembly comprising a first upper segmented barrier ring, a second upper segmented barrier ring, and an upper back-up ring disposed proximate the upper end of the sealing element, wherein a plurality of segments disposed in the first upper segment barrier ring are radially offset with respect to a plurality of segments disposed in the second upper segmented barrier ring;a lower ring assembly comprising a first lower segmented barrier ring, a second lower segmented barrier ring, and a lower back-up ring disposed proximate the lower end of the sealing element, wherein a plurality of segments disposed in the first lower segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second lower segmented barrier ring; anda bottom sub, wherein an outer surface of the bottom sub comprises at least one groove configured to act as a stress concentrator. 13. A drillable bridge plug comprising: a mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sealing element;a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines;an upper slip assembly disposed around the mandrel adjacent sloped surface of the upper cone;a lower slip assembly disposed around the mandrel adjacent a sloped surface of the lower cone;an upper ring assembly comprising a first upper segmented barrier ring, a second upper segmented barrier ring, and an upper back-up ring disposed proximate the upper end of the sealing element, wherein a plurality of segments disposed in the first upper segment barrier ring are radially offset with respect to a plurality of segments disposed in the second upper segmented barrier ring;a lower ring assembly comprising a first lower segmented barrier ring, a second lower segmented barrier ring, and a lower back-up ring disposed proximate the lower end of the sealing element, wherein a plurality of segments disposed in the first lower segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second lower segmented barrier ring; anda bottom sub, wherein the bottom sub comprises internal tapered threads disposed on an inner surface of the bottom sub. 14. The tool of claim 13, wherein a bottom surface of at least one of the bottom sub and the mandrel comprises notches disposed below the internal tapered threads configured to allow break-up of the bottom sub during drill out or milling of the bottom sub. 15. The tool of claim 13, wherein the upper end of the mandrel comprises external tapered threads configured to engage the internal tapered threads disposed on the inner surface of the bottom sub. 16. A drillable bridge plug comprising: a mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sealing element;a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines;an upper slip assembly disposed around the mandrel adjacent a sloped surface of the upper cone;a lower slip assembly disposed around the mandrel adjacent a sloped surface of the lower cone;an upper ring assembly comprising a first upper segmented barrier ring, a second upper segmented barrier ring, and an upper back-up ring disposed proximate the upper end of the sealing element, wherein a plurality of segments disposed in the first upper segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second upper segmented barrier ring;a lower ring assembly comprising a first lower segmented barrier ring, a second lower segmented barrier ring, and a lower back-up ring disposed proximate the lower end of the sealing element, wherein a plurality of segments disposed in the first lower segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second lower segmented barrier ring; anda bottom sub, wherein the bottom sub comprises radially outwardly extending fins. 17. A method of setting a drillable bridge plug comprising: applying an upward axial force to a mandrel;transferring the upward axial force to a lower cone and an upper cone;compressing a sealing element between the upper cone and the lower cone;radially expanding the sealing element into contact with a casing;creating a seal between the sealing element and the casing;deforming an upper ring assembly and a lower ring assembly radially outwardly into contact with the casing;exceeding a predetermined pressure of an upper slip assembly and a lower slip assembly; andradially expanding the upper slip assembly and the lower slip assembly to engage the casing,wherein the seal is fluid-tight under pressure up to approximately 15,000 pounds per square inch and under temperatures up to approximately 400° Fahrenheit,wherein deforming the upper ring assembly and the lower ring assembly further comprises breaking apart and radially expanding a back-up ring against the casing. 18. The method of claim 17, further comprising the step of aligning a first barrier ring having a plurality of slits and a plurality of segments with a second barrier ring having a plurality of slits and a plurality of segments, such that the plurality of slits on the second segmented barrier ring contact the plurality of segments on the first segmented barrier ring. 19. The method of claim 17, further comprising locking the radially expanded upper slip assembly and lower slip assembly with a locking device such that compression of the sealing element is maintained. 20. The method of claim 17, further comprising engaging a set of internal splines disposed on an inner surface of the lower cone with a set of external splines disposed on an outer surface of a mandrel. 21. A method of removing a drillable bridge plug comprising: milling through a top portion of a first drillable bridge plug, the top portion of the first drillable bridge plug comprising: a first mandrel having an upper end and a lower end, wherein the lower end comprises external splines disposed on an outer surface of the mandrel;a sealing element disposed around the mandrel;an upper cone disposed around the mandrel proximate an upper end of the sealing element;a lower cone disposed around the mandrel proximate the lower end of the sealing element, wherein an inner surface of the lower cone comprises internal splines configured to engage the external splines;an upper slip assembly disposed around the mandrel adjacent a sloped surface of the upper cone;a lower slip assembly disposed around the mandrel adjacent a sloped surface of the lower cone;an upper ring assembly comprising a first upper segmented barrier ring, a second upper segmented barrier ring, and an upper back-up ring disposed proximate the upper end of the sealing element, wherein a plurality of segments disposed in the first upper segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second upper segmented barrier ring;a lower ring assembly comprising a first lower segmented barrier ring, a second lower segmented barrier ring, and a lower back-up ring disposed proximate the lower end of the sealing element, wherein a plurality of segments disposed in the first lower segmented barrier ring are radially offset with respect to a plurality of segments disposed in the second lower segmented barrier ring; anda bottom sub connected to the lower end of the first mandrel using a connector;milling through the connector disposed between the lower sub and the lower end of the first mandrel;releasing a lower portion of the lower sub such that the lower portion of the lower sub falls onto a top portion of a second drillable bridge plug,wherein the lower portion of the lower sub comprises an inner thread, andwherein the top portion of the second drillable bridge plug comprises an outer thread configured to engage the inner thread of the lower portion of the lower sub. 22. The method of claim 21, further comprising preventing relative rotation between the mandrel and the lower cone, wherein rotation is prevented by engaging the external splines disposed on the mandrel with the inner splines disposed on the lower cone. 23. The method of claim 21, wherein releasing the lower portion of the lower sub further comprises cleaning debris from a casing wall using a plurality of fins disposed on the lower portion of the lower sub. 24. The method of claim 21, further comprising the step of milling the lower portion of the lower sub while the lower portion of the lower sub is threadedly engaged with the top portion of the second drillable bridge plug.