Seal ring backup devices and methods for preventing extrusion

The invention claimed is: 1. A seal ring back-up device, comprising: an annular body having a top surface, a bottom surface opposite the top surface, an inner surface, and an outer surface opposite the inner surface, wherein the inner surface defines an inner diameter of the annular body and the outer surface defines an outer diameter of the annular body; and a scarf cut extending between the inner and outer surfaces of the annular body and defining a gap in the annular body that extends completely between the top surface and the bottom surface, the gap being defined at a compound angle relative to a horizontal plane and a vertical plane of the annular body, wherein the annular body is arrangeable within a gland. 2. The seal ring back-up device of claim 1 , wherein the scarf cut provides opposing sloped faces each angled at the angle relative to the horizontal plane and the vertical plane. 3. The seal ring back-up device of claim 1 , wherein the bottom surface is wedge shaped. 4. The seal ring back-up device of claim 1 , wherein the annular body comprises a material selected from the group consisting of a metal, a metal alloy, a plastic, an amorphous polymer, glass, clay, ceramic, a thermoset, an epoxy, silica, carbon black, carbon fibers, nanoclay, nanotubes, boron, and any combination thereof. 5. The seal ring back-up device of claim 1 , wherein the annular body comprises a material selected from the group consisting of polyphenylene sulfide, polyaryletherketone, an amorphous polymer, a polyimide, a polyamide, a sulfone, any derivative thereof, and any combination thereof. 6. The seal ring back-up device of claim 1 , further comprising a surface coating disposed on the annular body, the surface coating being selected from the group consisting of a corrosion inhibitor, a corrosion resistant material, a friction reducer, a wear reducer, ceramic, and any combination thereof. 7. A sealing system, comprising: a bore defining a bore wall; a piston extendable within the bore and thereby defining an extrusion gap between the bore and the piston; a gland defined in the piston and providing a gland wall; a seal ring arranged within the gland; and a seal ring back-up device extending about an axis and arranged within the gland and in direct contact with the seal ring, the seal ring back-up device comprising: an annular body having a top surface, a bottom surface opposite the top surface and engageable with the gland wall, an inner surface, and an outer surface opposite the inner surface, wherein the outer surface and the bottom surface form, in a cross-section of the annular body, an acute angle; a scarf cut extending between the inner and outer surfaces of the annular body and defining a gap in the annular body that extends completely between the top surface and the bottom surface, the gap being defined at a compound angle relative to a horizontal plane and a vertical plane of the annular body. 8. The sealing system of claim 7 , wherein the scarf cut provides opposing sloped faces each angled at the angle relative to the horizontal plane and a vertical plane, the opposing sloped faces being slidingly engageable with one another during operation. 9. The sealing system of claim 7 , wherein the bottom surface and the gland wall are each wedge shaped. 10. The sealing system of claim 7 , wherein the annular body comprises a material selected from the group consisting of a metal, a metal alloy, a plastic, an amorphous polymer, glass, clay, ceramic, a thermoset, an epoxy, silica, carbon black, carbon fibers, nanoclay, nanotubes, boron, polyphenylene sulfide, polyaryletherketone, an amorphous polymer, a polyimide, a polyamide, a sulfone, any derivative thereof, and any combination thereof. 11. The sealing system of claim 7 , further comprising a surface coating disposed on the annular body, the surface coating being selected from the group consisting of a corrosion inhibitor, a corrosion resistant material, a friction reducer, a wear reducer, ceramic, and any combination thereof. 12. The sealing system of claim 7 , wherein the seal ring is bonded to the seal ring back-up device. 13. A method, comprising: arranging a seal ring within a gland defined within a piston, the piston being extendable within a bore having a bore wall, and thereby defining an extrusion gap between the bore wall and the piston; arranging a seal ring back-up device within the gland and in direct contact with the seal ring, the seal ring back-up device comprising: an annular body having a top surface, a bottom surface opposite the top surface, an inner surface, and an outer surface opposite the inner surface, wherein the outer surface extends axially farther from the seal ring than does the inner surface; and a scarf cut extending between the inner and outer surfaces of the annular body and defining a gap in the annular body that extends completely between the top surface and the bottom surface, the gap being defined at a compound angle relative to a horizontal plane and a vertical plane of the annular body; forcing the seal ring against the top surface as an external pressure increases and thereby forcing the bottom surface against a gland wall defined in the gland; and closing the extrusion gap with the seal ring back-up device as the bottom surface is forced against the gland wall and the outer surface is forced against the bore wall, thereby preventing the seal ring from deforming into the extrusion gap. 14. The method of claim 13 , wherein the scarf cut provides opposing sloped faces each angled at the angle relative to the horizontal plane and the vertical plane. 15. The method of claim 13 , wherein the scarf cut provides opposing sloped faces each angled at the angle relative to the horizontal plane and the vertical plane, and wherein closing the extrusion gap with the seal ring back-up device comprises slidingly engaging the opposing sloped faces on one another. 16. The method of claim 13 , wherein the bottom surface and the gland wall are each wedge shaped, and forcing the bottom surface against the gland wall comprises slidingly engaging the bottom surface against the gland wall. 17. The method of claim 13 , wherein forcing the seal ring against the top surface comprises forcing the seal ring against a surface contour shape provided on the top surface, the surface contour shape being selected from the group consisting of flat, convex, concave, angled, stepped at the outer surface, chamfered at the outer surface, and any combination thereof. 18. The method of claim 13 , wherein arranging the seal ring back-up device within the gland is preceded by coating the annular body with a surface coating selected from the group consisting of a corrosion inhibitor, a corrosion resistant material, a friction reducer, a wear reducer, ceramic, and any combination thereof. 19. The sealing system of claim 7 , wherein the outer surface has an axial length that is greater than an axial length of the inner surface.