Leaching assemblies, systems, and methods for processing superabrasive elements

What is claimed is: 1. A polycrystalline diamond element leaching assembly, comprising: a polycrystalline diamond element; a protective leaching cup surrounding at least a portion of the polycrystalline diamond element; a liner positioned between the polycrystalline diamond element and the protective leaching cup, the liner comprising: a side wall; a rear wall opposite an opening defined in the liner; a rounded edge portion comprising an arcuate cross-sectional shape. 2. The polycrystalline diamond element leaching assembly of claim 1 , wherein the rounded edge portion has an arcuate surface between the side wall and the rear wall. 3. The polycrystalline diamond element leaching assembly of claim 1 , wherein: the polycrystalline diamond element comprises: a cutting face; a rear surface opposite the cutting face; a side surface extending between the cutting face and the rear surface; the liner surrounds at least a portion of the polycrystalline diamond element such that: the side wall of the liner is adjacent a portion of the side surface of the polycrystalline diamond element; the rear wall of the liner is adjacent a portion of the rear surface of the polycrystalline diamond element; a gap is defined between the rounded edge portion of the liner and the polycrystalline diamond element. 4. The polycrystalline diamond element leaching assembly of claim 3 , wherein: the polycrystalline diamond element comprises a chamfer at the intersection of the side surface and the rear surface; the gap is defined between the rounded edge portion of the liner and the chamfer of the polycrystalline diamond element. 5. The polycrystalline diamond element leaching assembly of claim 3 , wherein the liner contacts at least one of the side surface of the polycrystalline diamond element and the rear surface of the polycrystalline diamond element. 6. The polycrystalline diamond element leaching assembly of claim 1 , wherein the polycrystalline diamond element comprises: a substrate; a polycrystalline diamond table bonded to the substrate. 7. The polycrystalline diamond element leaching assembly of claim 6 , wherein the protective leaching cup comprises: a seal region contacting a portion of the polycrystalline diamond table of the polycrystalline diamond element; an encapsulating region surrounding the liner and the substrate of the polycrystalline diamond element. 8. The polycrystalline diamond element leaching assembly of claim 6 , wherein the liner surrounds at least a portion of the substrate of the polycrystalline diamond element. 9. The polycrystalline diamond element leaching assembly of claim 6 , wherein the liner is adjacent a portion of the polycrystalline diamond table of the polycrystalline diamond element. 10. A leaching assembly for processing a polycrystalline diamond element, the leaching assembly comprising: a protective leaching cup configured to surround at least a portion of a polycrystalline diamond element; a liner configured to be positioned between the polycrystalline diamond element and the protective leaching cup, the liner comprising: a side wall; a rear wall opposite an opening defined in the liner; a rounded edge portion comprising an arcuate cross-sectional shape. 11. The leaching assembly of claim 10 , wherein the rounded edge portion has an arcuate surface between the side wall and the rear wall. 12. The leaching assembly of claim 10 , wherein the liner is configured to surround at least a portion of the polycrystalline diamond element such that: the side wall of the liner is adjacent a side surface of the polycrystalline diamond element; the rear wall of the liner is adjacent a rear surface of the polycrystalline diamond element; a gap is defined between the rounded edge portion of the liner and the polycrystalline diamond element. 13. The leaching assembly of claim 12 , wherein the liner is configured to contact at least one of the side surface of the polycrystalline diamond element and the rear surface of the polycrystalline diamond element. 14. The leaching assembly of claim 10 , wherein the protective leaching cup comprises: a seal region configured to contact a portion of the cutting element; an encapsulating region configured to surround the liner. 15. The leaching assembly of claim 14 , wherein the seal region of the protective leaching cup has a smaller diameter than the encapsulating region of the protective leaching cup. 16. A method of assembling a polycrystalline diamond element leaching assembly, the method comprising: providing a polycrystalline diamond element; surrounding at least a portion of the polycrystalline diamond element with a liner, the liner comprising: a side wall; a rear wall opposite an opening defined in the liner; a rounded edge portion extending between the side wall and the rear wall; inserting the liner and the polycrystalline diamond element into a protective leaching cup such that the liner is disposed between the polycrystalline diamond element and the protective leaching cup. 17. The method of claim 16 , wherein inserting the liner and the polycrystalline diamond element into the protective leaching cup further comprises inserting the rear wall and the rounded edge portion of the liner into the protective leaching cup first. 18. The method of claim 16 , wherein inserting the liner and the polycrystalline diamond element into the protective leaching cup further comprises positioning a seal region of the protective leaching cup in contact with a portion of a side surface of the polycrystalline diamond element.