Leached superabrasive elements, subterranian tools with leached superabrasive elements, and related systems and methods

What is claimed is: 1 . A superabrasive element produced by a process comprising: providing a superabrasive element comprising a polycrystalline diamond table that comprises a metallic material disposed in interstitial spaces defined within the polycrystalline diamond table, the polycrystalline diamond table comprising: a superabrasive face; and a superabrasive side surface extending around an outer periphery of the superabrasive face; wherein at least a portion of the superabrasive element includes a protective covering bonded to the superabrasive element, and wherein the protective covering is bonded to a portion of the superabrasive side surface of the polycrystalline diamond table; leaching the metallic material from at least a volume of the polycrystalline diamond table to produce a leached volume in a peripheral region of the polycrystalline diamond table that is leached to a greater depth than a central region of the polycrystalline diamond table by: exposing at least a portion of the polycrystalline diamond table to a processing solution; exposing an electrode to the processing solution; applying a charge to the electrode such that a voltage is generated between the polycrystalline diamond table and the electrode and the voltage is applied to the processing solution; leaching a portion of the polycrystalline diamond table; preventing leaching of the portion of the superabrasive side surface of the superabrasive element with the protective covering bonded thereto; and removing the protective covering from the superabrasive element. 2 . The superabrasive element of claim 1 , the process further comprising using the protective covering in another processing act of forming the superabrasive element. 3 . The superabrasive element of claim 2 , the process further comprising sintering a mass of particles in a refractory metal can to form the superabrasive element. 4 . The superabrasive element of claim 1 , wherein the protective covering comprises a metal material. 5 . The superabrasive element of claim 4 , the process further comprising removing at least a portion of the metal material of the protective covering from the superabrasive element. 6 . The superabrasive element of claim 5 , wherein removing at least a portion of the metal material of the protective covering includes the metal material being at least one of peeled, cut, ground, lapped, physically removed, thermally removed, or chemically removed from the superabrasive element. 7 . The superabrasive element of claim 1 , the process further comprising leaching a central portion of the superabrasive face of the superabrasive element. 8 . The superabrasive element of claim 1 , the process further comprising leaching only a portion of the superabrasive side surface of the superabrasive element. 9 . The superabrasive element of claim 1 , the process further comprising leaching a region adjacent to the superabrasive side surface of the superabrasive element. 10 . The superabrasive element of claim 1 , the process further comprising substantially preventing or delaying the processing solution from contacting the at least a portion of the superabrasive element with the protective covering. 11 . The superabrasive element of claim 10 , the process further comprising selecting the protective covering to be partially or fully impermeable to the processing solution. 12 . The superabrasive element of claim 11 , the process further comprising forming a seal between the protective covering and the superabrasive element. 13 . The superabrasive element of claim 1 , wherein the protective covering is formed with an opening enabling an electrical conductor to contact a surface of a substrate of the superabrasive element that carries the polycrystalline diamond table. 14 . The superabrasive element of claim 1 , the process further comprising positioning the electrode relatively closer to a superabrasive side surface of the superabrasive element. 15 . A superabrasive element produced by a process comprising: providing a superabrasive element comprising a polycrystalline diamond table that comprises a metallic material disposed in interstitial spaces defined within the polycrystalline diamond table, the polycrystalline diamond table comprising: a superabrasive face; and a superabrasive side surface extending around an outer periphery of the superabrasive face; wherein at least a portion of the superabrasive element includes a protective covering; leaching the metallic material from at least a volume of the polycrystalline diamond table to produce a leached volume in a peripheral region of the polycrystalline diamond table that is leached to a greater depth than a central region of the polycrystalline diamond table by: exposing at least a portion of the polycrystalline diamond table to a processing solution; exposing an electrode to the processing solution; applying a charge to the electrode such that a voltage is generated between the polycrystalline diamond table and the electrode and the voltage is applied to the processing solution; leaching at least a portion of the superabrasive face of the polycrystalline diamond table and only a portion of the superabrasive side surface; and removing the protective covering from the superabrasive element. 16 . A superabrasive element produced by a process comprising: providing a superabrasive element comprising a polycrystalline diamond table that comprises a metallic material disposed in interstitial spaces defined within the polycrystalline diamond table, the polycrystalline diamond table comprising: a superabrasive face; and a superabrasive side surface extending around an outer periphery of the superabrasive face; wherein at least a portion of the superabrasive element includes a protective covering bonded to a portion of the superabrasive side surface of the polycrystalline diamond table; leaching the metallic material from at least a volume of the polycrystalline diamond table to produce a leached volume in a peripheral region of the polycrystalline diamond table that is leached to a greater depth than a central region of the polycrystalline diamond table by: exposing at least a portion of the polycrystalline diamond table to a processing solution; exposing an electrode to the processing solution; applying a charge to the electrode such that a voltage is generated between the polycrystalline diamond table and the electrode and the voltage is applied to the processing solution; leaching a portion of the polycrystalline diamond table including another portion of the superabrasive side surface; and removing the protective covering from the superabrasive element.