Flux-coated binder for making metal-matrix composites, a drill body and drill bit including the same, and methods of manufacture

What is claimed is: 1. A flux-coated binder, the flux-coated binder comprising: a metal binder; and a flux powder adhered to a surface of the metal binder, the flux powder being 0.25 to 2.5 wt. % of a total amount of metal binder; the metal binder having a surface area to volume ratio of 8.6 to 20 square inches per cubic inch. 2. The flux-coated binder according to claim 1 , wherein the flux powder adhered to the surface of the metal binder is uniformly distributed about the surface of the metal binder. 3. The flux-coated binder according to claim 1 , wherein the flux powder includes a material selected from the group consisting of boric acid, a borate compound, a fluoride, and combinations thereof. 4. The flux-coated binder according to claim 1 , wherein the binder comprises a metal selected from the group consisting of copper, aluminum, magnesium, iron-based, cobalt, and an alloy thereof. 5. The flux-coated binder according to claim 1 , further comprising a binding material adhered to the surface of the metal binder, wherein the binding material is coated on the metal binder and wherein the flux powder is adhered to the binding material to provide the flux-coated binder. 6. The flux-coated binder according to claim 5 , wherein the binding material is a fluid or a gel. 7. The flux-coated binder according to claim 5 , wherein the binding material is a polyether polyol. 8. The flux-coated binder according to claim 5 , wherein the binding material comprises a rosin a modified rosin, a liquid polyether polyol, or a brown flux. 9. The flux-coated binder according to claim 5 , the flux powder being 0.25 to 2.5 wt % of a total amount of metal binder and binding material. 10. The flux-coated binder according to claim 1 , the metal binder including a plurality of binder slugs. 11. A flux-coated binder, the flux-coated binder comprising: a metal binder having a melting temperature greater than 790° C.; and a flux powder adhered to a surface of the metal binder; the metal binder having a surface area to volume ratio of 8.6 to 20 square inches per cubic inch. 12. The flux-coated binder according to claim 11 , wherein the flux powder adhered to the surface of the metal binder is uniformly distributed about the surface of the metal binder. 13. The flux-coated binder according to claim 11 , wherein the flux powder includes a material selected from the group consisting of boric acid, a borate compound, a fluoride, and combinations thereof. 14. The flux-coated binder according to claim 11 , further comprising a binding material adhered to the surface of the metal binder, wherein the binding material is coated on the metal binder and wherein the flux powder is adhered to the binding material to provide the flux-coated binder. 15. The flux-coated binder according to claim 14 , wherein the binding material is a fluid or a gel. 16. The flux-coated binder according to claim 14 , wherein the binding material is a polyether polyol. 17. The flux-coated binder according to claim 14 , wherein the binding material comprises a rosin a modified rosin, a liquid polyether polyol, or a brown flux. 18. The flux-coated binder according to claim 14 , the flux powder being 0.25 to 2.5 wt % of a total amount of metal binder and binding material. 19. The flux-coated binder according to claim 14 , the metal binder including a plurality of binder slugs.