Casting of tungsten carbide matrix bit heads and heating bit head portions with microwave radiation

What is claimed is: 1. A method of making a drill bit comprising: placing matrix material in a bit body mold; placing a metal blank in the bit body mold; placing a binder material in the bit body mold with the binder material proximate the matrix material and the metal blank; and exposing the bit body mold and at least the binder material to microwave radiation to establish at least two temperature zones having different temperatures and heated via the microwave radiation to which each zone within the mold is exposed, wherein the binder material is exposed to microwave radiation focused on the binder material and away from the metal blank using a microwave wave guide, whereby binder material is heated to a selected temperature to allow binder material to melt and to infiltrate matrix material without overheating the metal blank. 2. A method of making a drill bit as claimed in claim 1 , wherein the placing matrix material in a bit body mold comprises placing a matrix material selected from the group consisting of cemented carbides, spherical carbides, macrocrystalline tungsten carbide, and cast carbide in a bit body mold. 3. A method of making a drill bit as claimed in claim 1 , wherein the placing matrix material in a bit body mold comprises: placing a first layer of a matrix material in the bit body mold prior to the placing a metal blank in the bit body mold; and placing a second layer of a matrix material in the bit body mold after the placing a metal blank in the bit body mold. 4. A method of making a drill bit as claimed in claim 1 , wherein the placing a metal blank in the bit body mold comprises placing a blank pin in the bit body. 5. A method of making a drill bit as claimed in claim 1 , wherein the placing a binder material in the bit body mold comprises a binder material selected from copper (Cu), nickel (Ni), cobalt (Co), iron (Fe), molybdenum (Mo) individually and alloys based on these metals. 6. A method of making a drill bit as claimed in claim 1 , wherein the exposing binder material to microwave radiation comprises exposing binder material to microwave radiation having a frequency between 0.5 GHz and 10 GHz and a power output between 900 and 20,000 Watts. 7. A method of making a drill bit as claimed in claim 1 , further comprising packing matrix material, whereby the density of matrix material is increased. 8. A method of making a drill bit as claimed in claim 1 , further comprising placing a displacement material in the bit body mold. 9. A method of making a drill bit as claimed in claim 1 , further comprising cooling the bit body mold and materials disposed therein to form a coherent matrix bit body securely engaged with the metal blank. 10. A method of making a drill bit as claimed in claim 1 , further comprising moving the bit body mold relative to the microwave wave guide, whereby different parts of the bit body mold are exposed to microwave radiation. 11. A method of making a drill bit as claimed in claim 1 , further comprising isotropic heating the bit body mold. 12. A method of making a drill bit as claimed in claim 1 , further comprising placing flux on top of the binder material in the bit body mold. 13. A method of making a drill bit as claimed in claim 1 , further comprising exposing the matrix material to microwave radiation. 14. A method of making a drill bit as claimed in claim 1 , further comprising exposing a plurality of portions of material to microwave radiation via a plurality of microwave waveguides. 15. A method of making a drill bit comprising: placing at least a first layer of a matrix material selected from the group consisting of cemented carbides, spherical carbides, macrocrystalline tungsten carbide, and cast carbide in a bit body mold; placing a displacement core having a generally cylindrical configuration defined in part by an outside diameter in the bit body mold; placing a metal blank in the bit body mold coaxial with and around the displacement core to form an annulus defined in part by an inside diameter of the metal blank and the outside diameter of the displacement core; placing at least a second layer of a matrix material selected from the group consisting of cemented carbides, spherical carbides, macrocrystalline tungsten carbide, and cast carbide in the bit body mold, wherein the second layer of a matrix material fills the annulus between the displacement core and the metal blank; placing a binder material in the bit body mold with the binder material proximate matrix material and the metal blank; exposing the bit body mold and at least the binder material to microwave radiation to establish at least two temperature zones having different temperatures and heated via the microwave radiation to which each zone within the mold is exposed, wherein the binder material is exposed to microwave radiation focused on the binder material and away from the metal blank using a microwave wave guide, whereby the binder material is heated to a selected temperature to allow the binder material to melt and to infiltrate matrix material without overheating the metal blank; and cooling the mold and materials disposed therein to form a coherent matrix bit body securely engaged with the metal blank. 16. A method of making a drill bit as claimed in claim 15 , wherein the exposing binder material to microwave radiation comprises exposing binder material to microwave radiation having a frequency between 0.5 GHz and 10 GHz and a power output between 900 and 20,000 Watts. 17. A method of making a drill bit as claimed in claim 15 , further comprising moving the bit body mold relative to the microwave wave guide, whereby different parts of the bit body mold are exposed to microwave radiation. 18. A method of making a drill bit as claimed in claim 15 , further comprising exposing a plurality of portions of material to microwave radiation via a plurality of microwave waveguides. 19. A method of making a drill bit as claimed in claim 1 , wherein the exposing step requires approximately one hour. 20. A method of making a drill bit as claimed in claim 15 , wherein the exposing step requires approximately one hour. 21. A method of making a drill bit as claimed in claim 1 , further comprising cooling the mold and materials disposed therein to form a coherent matrix bit body securely engaged with the metal blank, wherein specific portions of the matrix bit body or mold are exposed to microwave radiation and heated during the cooling step. 22. A method of making a drill bit as claimed in claim 15 , further comprising exposing specific portions of the matrix bit body or mold to microwave radiation and thereby heating the specific portions during the cooling step.