Method of testing a polycrystalline diamond compact cutter

We claim: 1 . A method for determining fracture toughness of a cutting element, comprising the steps of: clamping a first cutting element into a fixture in a first orientation, said first cutting element being comprised of a first diamond table and a first substrate; exerting a first confining pressure on said first diamond table by said fixture, said confining pressure being radial to said first diamond table and across a first top surface of said first diamond table; applying a first load at a first distance from a first perimeter of said first diamond table; increasing said first load to a first level sufficient to fracture said first diamond table; recording said first level sufficient to fracture said first diamond table; clamping a second cutting element into said fixture in a second orientation, said second cutting element being comprised of a second diamond table and a second substrate, said first cutting element and said second cutting element being manufactured under a same set of conditions; exerting a second confining pressure on said second diamond table by said fixture, said second confining pressure being radial to said second diamond table and across a second top surface of said second diamond table; applying a second load at a second distance from a second perimeter of said second diamond table; increasing said second load to a second level sufficient to fracture said second diamond table; recording said second level sufficient to fracture said second diamond table; and forming a profile of cutting elements manufactured under said same set of conditions as said first cutting element and said second cutting element, said profile being comprised of data related to distance, load, and level sufficient to fracture said first diamond table and said second diamond table. 2 . The method for determining fracture toughness, according to claim 1 , further comprising the steps of: clamping an additional cutting element into said fixture in an additional orientation, said additional cutting element being comprised of an additional diamond table and an additional substrate, said first cutting element, said second cutting element, and said additional cutting element being manufactured under a same set of conditions; exerting an additional confining pressure on said additional diamond table by said fixture, said additional confining pressure being radial to said additional diamond table and across an additional top surface of said additional diamond table; applying an additional load at an additional distance from an additional perimeter of said additional diamond table; increasing said additional load to an additional level sufficient to fracture said additional diamond table; and recording said additional level sufficient to fracture said additional diamond table, wherein said step of forming said profile of cutting elements manufactured under said same set of conditions comprises data related to distance, load, and level sufficient to fracture said additional diamond table. 3 . The method for determining fracture toughness, according to claim 2 , further comprising the steps of: repeating the steps of clamping an additional cutting element at an additional orientation, exerting an additional confining pressure on said additional diamond table by said fixture, applying an additional load at an additional distance from an additional perimeter of said additional diamond table, increasing said additional load to an additional level sufficient to fracture said additional diamond table, and recording said additional level sufficient to fracture said additional diamond table, wherein said step of forming said profile of cutting elements manufactured under said same set of conditions comprises data related to distance, load, and level sufficient to fracture additional diamond tables. 4 . The method for determining fracture toughness, according to claim 1 , wherein said second diamond table has a worn edge at a first worn distance along said second perimeter, said second confining pressure being exerted on said worn edge, said first worn distance being less than said first distance, and wherein said profile further comprises said first worn distance. 5 . The method for determining fracture toughness, according to claim 2 , wherein said additional diamond table has an additional worn edge at an additional worn distance along said additional perimeter, said additional confining pressure being exerted on said additional worn edge, and wherein said profile further comprises said additional worn distances. 6 . The method for determining fracture toughness, according to claim 3 , wherein at least one additional diamond table has at least one additional worn edge at at least one additional worn distance along at least one additional perimeter, said at least one additional confining pressure being exerted on said at least one additional worn edge, and wherein said profile further comprises at least one additional worn distance. 7 . A method for determining fracture toughness of a cutting element, comprising the steps of: clamping a first cutting element into a fixture in a first orientation, said first cutting element being comprised of a first diamond table and a first substrate; exerting a first confining pressure on said first diamond table by said fixture, said confining pressure being radial to said first diamond table and across a first top surface of said first diamond table; applying a first load at a first distance from a first perimeter of said first diamond table; increasing said first load to a first level sufficient to fracture said first diamond table; recording said first level sufficient to fracture said first diamond table; releasing said first cutting element from said fixture; re-clamping said first cutting element into said fixture in a second orientation, said first orientation being spaced from said second orientation; exerting a second confining pressure on said first diamond table by said fixture, said second confining pressure being radial to said first diamond table and across said first top surface of said first diamond table; applying a second load at a second distance from said first perimeter of said first diamond table; increasing said second load to a second level sufficient to fracture said first diamond table a second time; recording said second level sufficient to fracture said first diamond table said second time; and forming a profile of cutting elements manufactured under said same set of conditions as said first cutting element, said profile being comprised of data related to distance, load, and level sufficient to fracture said first diamond table, wherein fracture in said first orientation is isolated from fracture in said second orientation. 8 . The method for determining fracture toughness, according to claim 7 , said first diamond table in said second orientation having a same integrity as said first diamond table in said first orientation before fracture in said first orientation. 9 . The method for determining fracture toughness, according to claim 7 , further comprising the step of: rotating said first cutting element at least 90 degrees from said first orientation to said second orientation. 10 . The method for determining fracture toughness, according to claim 7 , further comprising the steps of: repeating the steps of releasing said first cutting element; re-clamping said first cutting element at an additional orientation, exerting an additional confining pressure on said first diamond table by said fixture, applying an additional load at an additional distance from said first perimeter of said first diamond table