Superabrasive elements and methods for processing and manufacturing the same using protective layers

What is claimed is: 1. A polycrystalline diamond element, comprising: a polycrystalline diamond table comprising: a superabrasive face; a superabrasive side surface extending around an outer periphery of the superabrasive face; and a chamfer extending between the superabrasive face and the superabrasive side surface; wherein: the polycrystalline diamond table comprises an unleached volume and a leached volume, the leached volume only extending from the superabrasive face to a portion of the chamfer diagonally adjacent to the superabrasive side surface; the leached volume along the portion of the chamfer extends to a depth from the superabrasive face that is greater than a depth that the leached volume along the superabrasive face extends from the superabrasive face; the leached volume along the portion of the chamfer terminates at a circumferential stepped portion defined by the unleached volume, a portion of the unleached volume defining an outer circumferential surface of the polycrystalline diamond table; and the leached volume including the portion of the chamfer radially surrounds at least a portion of the unleached volume positioned at the same axial extent of the polycrystalline diamond table as the portion of the chamfer. 2. The polycrystalline diamond element of claim 1 , further comprising a substrate bonded to the polycrystalline diamond table. 3. The polycrystalline diamond element of claim 1 , wherein the polycrystalline diamond table further comprises a transition region between the leached volume and the unleached volume of the polycrystalline diamond table. 4. The polycrystalline diamond element of claim 3 , wherein the transition region extends to an intersection between the chamfer and the superabrasive side surface. 5. The polycrystalline diamond element of claim 1 , wherein the leached volume does not extend along the superabrasive side surface. 6. The polycrystalline diamond element of claim 1 , wherein: the polycrystalline diamond table comprises a transition region between the leached volume and the unleached volume of the polycrystalline diamond table; and at least a portion of the transition region extends away from the superabrasive side surface toward the superabrasive face. 7. The polycrystalline diamond element of claim 1 , wherein the polycrystalline diamond table was formed with a protective layer positioned around the polycrystalline diamond table, the protective layer configured to substantially prevent the leached volume from extending past the chamfer to the superabrasive side surface. 8. The polycrystalline diamond element of claim 1 , further comprising a protective layer positioned around the polycrystalline diamond table during a leaching process to define the leached volume, the protective layer configured to substantial prevent the leached volume from extending to a portion of the superabrasive side surface. 9. A polycrystalline diamond element, comprising: a polycrystalline diamond table comprising: a superabrasive face; a superabrasive side surface positioned around an outer periphery of the superabrasive face; a chamfer extending between the superabrasive face and the superabrasive side surface; a leached portion having been exposed to a leaching process, the leached portion including the superabrasive face and only a portion of the chamfer, the leached portion including the portion of the chamfer extending from the superabrasive face axially beyond the leached portion including the superabrasive face; and an unleached portion having been substantially isolated from the leaching process, the unleached portion including at least a portion of the superabrasive side surface and an unleached inner portion of the polycrystalline diamond table, the unleached inner portion being radially bordered by the leached portion including the only the portion of the chamfer, the unleached portion defining a radially outward interface between the unleached portion and an axial end of the leached portion including the portion of the chamfer, the radially outward interface being positioned at an axial location that is further from the superabrasive face than the unleached inner portion, the radially outward interface extending radially from the unleached inner portion to an outer surface of the polycrystalline diamond table and defining a portion of the outer surface of the polycrystalline diamond table. 10. The polycrystalline diamond element of claim 9 , wherein the unleached portion includes a substantial entirety of the superabrasive side surface. 11. The polycrystalline diamond element of claim 9 , wherein a substantial entirety of the superabrasive side surface was isolated from the leaching process. 12. The polycrystalline diamond element of claim 9 , wherein the unleached inner portion is radially surrounded by the leached portion including the at least a portion of the chamfer. 13. The polycrystalline diamond element of claim 9 , wherein the polycrystalline diamond table included a protective layer positioned around the polycrystalline diamond table during the leaching process in order to define the unleached portion. 14. The polycrystalline diamond element of claim 9 , further comprising a protective layer positioned around the unleached portion of the polycrystalline diamond table during the leaching process. 15. The polycrystalline diamond element of claim 14 , wherein the protective layer is configured to surround an entirety of the superabrasive side surface. 16. A polycrystalline diamond element, comprising: a polycrystalline diamond table comprising: a superabrasive face; a superabrasive side surface positioned about an outer periphery of the superabrasive face; a chamfer between the superabrasive face and the superabrasive side surface; a leached portion having been exposed to a leaching process, the leached portion including the superabrasive face and only a portion of the chamfer; and an unleached portion having been substantially isolated from the leaching process, the unleached portion including at least a portion of the superabrasive side surface and an unleached inner portion of the polycrystalline diamond table, wherein the unleached portion includes a substantial entirety of the superabrasive side surface, and wherein the unleached portion defines a circumferential stepped portion at an interface between the unleached portion and an axial end of the leached portion including the portion of the chamfer, a portion of the circumferential stepped portion defining a radially outward surface of the polycrystalline diamond table. 17. The polycrystalline diamond element of claim 16 , wherein the unleached inner portion is radially bordered by the leached portion including the at least a portion of the chamfer. 18. The polycrystalline diamond element of claim 17 , wherein the unleached inner portion is axially bordered by the superabrasive face. 19. The polycrystalline diamond element of claim 16 , further comprising a protective layer positioned around the unleached portion of the polycrystalline diamond table during the leaching process to at least partially isolate the unleached portion from a leaching solution used in the leaching process, wherein the protective layer is configured to be removed after the leaching process. 20. The polycrystalline diamond element of claim 19 , wherein a substantially entirety the superabrasive side surface is isolated from the leaching process by the protective layer.