Liquid-metal-embrittlement resistant superabrasive compacts

The invention claimed is: 1. A superabrasive compact, comprising; a superabrasive table; a substrate including an interfacial surface bonded to the superabrasive table, a base surface, and at least one exterior peripheral surface extending between the base surface and the interfacial surface; and at least one liquid-metal-embrittlement-susceptibility-reducing material positioned adjacent to the interfacial surface of the substrate, the at least one liquid-metal-embrittlement-susceptibility-reducing material positioned and configured to be exposed to a braze alloy when the substrate is brazed to a body; wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material exhibits an abrasion resistance less than that of the substrate; wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material is non-wettable by the braze alloy. 2. The superabrasive compact of claim 1 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material is positioned adjacent to the interfacial surface of the substrate. 3. The superabrasive compact of claim 1 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material abuts with the interfacial surface of the substrate. 4. The superabrasive compact of claim 1 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material includes at least one of a ceramic material, a curable paste, a glass, or graphite. 5. The superabrasive compact of claim 1 wherein the first portion of the exterior peripheral surface of the substrate includes at least one groove formed in the at least one exterior peripheral surface thereof that is at least partially filled with the at least one liquid-metal-embrittlement-susceptibility-reducing material. 6. The superabrasive compact of claim 1 wherein the first portion of the exterior peripheral surface of the substrate includes at least one groove formed in the at least one exterior peripheral surface thereof that includes the at least one liquid-metal-embrittlement-susceptibility-reducing material therein and is at least partially unfilled. 7. The superabrasive compact of claim 1 wherein the superabrasive table includes polycrystalline diamond. 8. The superabrasive compact of claim 7 wherein the superabrasive table includes a leached region. 9. A superabrasive compact, comprising; a superabrasive table; a substrate including an interfacial surface bonded to the superabrasive table, a base surface, and at least one exterior peripheral surface extending between the base surface and the interfacial surface; and at least one liquid-metal-embrittlement-susceptibility-reducing feature including at least one groove formed in the at least one exterior peripheral surface of the substrate and positioned adjacent to the interfacial surface thereof, the at least one groove at least partially filled and positioned to be exposed to a braze alloy when the substrate is brazed to a body; wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material exhibits an abrasion resistance less than that of the substrate. 10. The superabrasive compact of claim 9 wherein the at least one groove includes a material therein that is non-wettable by the braze alloy. 11. The superabrasive compact of claim 9 wherein the at least one groove includes at least one of a ceramic material, a curable paste, a glass, or graphite. 12. The superabrasive compact of claim 9 wherein the at least one groove is substantially completely filled with a liquid-metal-embrittlement-susceptibility-reducing material. 13. The superabrasive compact of claim 9 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing feature includes a protective material disposed on the at least one exterior peripheral surface of the substrate at least proximate to the interfacial surface thereof, the protective material configured to limit access by a braze alloy to a residual tensile stress region of the substrate. 14. The superabrasive compact of claim 9 wherein the superabrasive table includes polycrystalline diamond. 15. A polycrystalline diamond compact, comprising; a polycrystalline diamond table; a substrate including an interfacial surface bonded to the polycrystalline diamond table, a base surface, and at least one exterior peripheral surface extending between the base surface and the interfacial surface; and at least one liquid-metal-embrittlement-susceptibility-reducing material positioned at least proximate to the interfacial surface of the substrate, the at least one liquid-metal-embrittlement-susceptibility-reducing material exhibiting an abrasion resistance less than that of the substrate, the at least one liquid-metal-embrittlement-susceptibility-reducing material being positioned and configured to be exposed to a braze alloy when the substrate is brazed to a body; wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material covers a first portion of the exterior peripheral surface, thereby leaving a second portion of the exterior peripheral surface uncovered by the at least one liquid-metal-embrittlement-susceptibility-reducing material. 16. The polycrystalline diamond compact of claim 15 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material is non-wettable relative to the braze alloy. 17. The polycrystalline diamond compact of claim 15 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material is positioned adjacent to the interfacial surface of the substrate. 18. The polycrystalline diamond compact of claim 15 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material abuts with the interfacial surface of the substrate. 19. The polycrystalline diamond compact of claim 15 wherein the at least one liquid-metal-embrittlement-susceptibility-reducing material includes at least one of a ceramic material, a curable paste, a glass, or graphite.