Cutting elements, earth-boring tools incorporating such cutting elements, and methods of forming such cutting elements

What is claimed is: 1. A cutting element, comprising: a substrate; a thermally stable polycrystalline table comprising interbonded grains of a superhard material and interstitial spaces among the interbonded grains of the superhard material, the thermally stable polycrystalline table being at least substantially devoid of catalyst material used to form intergranular bonds among the interbonded grains of the superhard material; a substrate portion interposed between the thermally stable polycrystalline table and the substrate; and a metal material attaching the substrate to the substrate portion, the metal material extending from proximate the substrate, through the substrate portion, and partially into the thermally stable polycrystalline table, the metal material exhibiting a melting temperature of less than 1320° C. 2. The cutting element of claim 1 , wherein the metal material exhibits a melting temperature of less than 1,100° C. 3. The cutting element of claim 1 , wherein the substrate portion has a thickness less than a thickness of the substrate. 4. The cutting element of claim 1 , wherein a portion of the thermally stable polycrystalline table at an end of the thermally stable polycrystalline table opposing the substrate portion is at least substantially free of catalyst material and of the metal material. 5. The cutting element of claim 1 , wherein an outer diameter of the substrate has a higher volume percentage of hard particles and a lower volume percentage of matrix material than a volume percentage of hard particles and a volume percentage of matrix material in a remainder of the substrate. 6. An earth-boring tool, comprising: a body; and at least one cutting element attached to the body, the at least one cutting element comprising: a substrate; a thermally stable polycrystalline table comprising interbonded grains of a superhard material and interstitial spaces among the interbonded grains of the superhard material, the thermally stable polycrystalline table being at least substantially devoid of catalyst material used to form intergranular bonds among the interbonded grains of the superhard material; a substrate portion interposed between the thermally stable polycrystalline table and the substrate; and a metal material attaching the substrate to the substrate portion, the metal material extending from proximate the substrate, through the substrate portion, and partially into the thermally stable polycrystalline table, the metal material exhibiting a melting temperature of less than 1320° C., wherein a cutting face of the thermally stable polycrystalline table is located opposite the substrate and is at least substantially free of the metal material. 7. The earth-boring tool of claim 6 , wherein an outer diameter of the substrate has a higher volume percentage of hard particles and a lower volume percentage of matrix material than a volume percentage of hard particles and a volume percentage of matrix material in a remainder of the substrate. 8. The earth-boring tool of claim 6 , wherein the metal material exhibits a melting temperature of less than 1100° C.