Methods of removing shoulder powder from fixed cutter bits

What is claimed is: 1. An infiltrated bit body comprising: a fluid cavity; a metal blank disposed about the fluid cavity; a hard composite portion formed radially between a portion of the fluid cavity and a portion of the metal blank, with respect to a longitudinal axis of the infiltrated bit body, and extending below the metal blank; an auxiliary portion disposed about the metal blank and extending to the hard composite portion such that a boundary between the hard composite portion and the auxiliary portion extends toward the metal blank at an upward angle ranging between 300 and 900 relative to vertical, wherein the auxiliary portion comprises an indentation formed at the boundary between the hard composite portion and the auxiliary portion, wherein the indentation extends radially inward from a radially outer surface of the auxiliary portion and from a radially outer surface of the hard composite portion, wherein a machinability rating of the auxiliary portion is greater than a machinability rating of the hard composite portion, wherein the auxiliary portion comprises an auxiliary material, and wherein a component of the auxiliary material comprises a diameter of between 0.5 microns to 5.0 millimeters. 2. The infiltrated bit body of claim 1 , wherein the auxiliary material is dispersed in a binder material, and wherein the auxiliary material comprises one selected from the group consisting of: a refractory metal, a refractory alloy, a refractory ceramic, and any combination thereof. 3. The infiltrated bit body of claim 1 , wherein the auxiliary portion comprises an alloy between an auxiliary material and a binder material, and wherein the auxiliary material comprises one selected from the group consisting of: a non-refractory metal, a non-refractory alloy, a non-refractory ceramic, and any combination thereof. 4. The infiltrated bit body of claim 1 , wherein the auxiliary portion comprises a refractory material dispersed in an alloy of a binder material and a non-refractory material. 5. The infiltrated bit body of claim 1 , wherein the auxiliary portion comprises a refractory material, wherein a first zone of the auxiliary portion extending from the boundary to ten centimeters out from the boundary comprises a greater concentration of the refractory material than a second zone more than ten centimeters out from the boundary. 6. The infiltrated bit body of claim 1 , wherein the components of the auxiliary material comprise a diameter of between 0.5 microns to 100 microns. 7. The infiltrated bit body of claim 1 , wherein the components of the auxiliary material comprise a diameter of between 250 microns to 1000 microns. 8. The infiltrated bit body of claim 1 , wherein the components of the auxiliary material comprise a diameter of between 500 microns to 5 mm. 9. The infiltrated bit body of claim 1 , wherein the hard composite portion is formed between a lower portion of the fluid cavity and a lower portion of the metal blank, and wherein the auxiliary portion is further disposed between an upper portion of the fluid cavity and an upper portion of the metal blank. 10. The infiltrated bit body of claim 1 , wherein excess solidified binder is formed atop the auxiliary portion, the excess solidified binder including a machinability rating greater than or equal to the machinability rating of the auxiliary portion. 11. The infiltrated bit body of claim 1 , wherein the hard composite forms a portion of a cutter blade including a plurality of pockets configured to receive respective cutting elements for engaging a subterranean formation. 12. The infiltrated bit body of claim 1 , wherein the hard composite comprises a reinforcement material dispersed in a binder material, and wherein the reinforcement material comprises include reinforcing particles, refractory metals, refractory metal alloys, refractory ceramics, or some combination thereof. 13. The infiltrated bit body of claim 12 , wherein the reinforcing particles form at least fifty percent by weight of the reinforcement material. 14. The infiltrated bit body of claim 12 , wherein the reinforcing particles form at least seventy-five percent by weight of the reinforcement material. 15. The infiltrated bit body of claim 12 , wherein the reinforcing particles form at least ninety-five percent by weight of the reinforcement material. 16. The infiltrated bit body of claim 12 , wherein the reinforcing particles comprise a diameter of one micron to one millimeter. 17. The infiltrated bit body of claim 1 , wherein the boundary intersects the metal blank at a beveled portion, wherein the beveled portion is disposed on a radially exterior portion and/or bottom portion of the metal blank. 18. The infiltrated bit body of claim 1 , wherein the upward angle of the boundary ranges between 30° and 60° relative to vertical. 19. An infiltrated downhole tool comprising: a fluid cavity for conveying drilling fluid; a metal blank disposed about the fluid cavity; a hard composite portion formed radially between a lower portion of the fluid cavity and a lower portion of the metal blank, with respect to a longitudinal axis of the infiltrated downhole tool, and extending below the metal blank, the hard composite portion forming at least a portion of a cutter blade having a plurality of pockets configured to receive respective cutting elements for engaging a subterranean formation, wherein the hard composite comprises a reinforcement material dispersed in a binder material, wherein the reinforcement material comprises reinforcing particles, and wherein the reinforcing particles form at least fifty percent by weight of the reinforcement material; a first auxiliary portion disposed radially between an upper portion of the fluid cavity and an upper portion of the metal blank, with respect to the longitudinal axis of the infiltrated downhole tool; and a second auxiliary portion disposed about the metal blank and extending to the hard composite portion such that a boundary between the hard composite portion and the second auxiliary portion extends toward the metal blank at an upward angle ranging between 300 and 900 relative to vertical, wherein the second auxiliary portion comprises an indentation formed at the boundary between the hard composite portion and the second auxiliary portion, wherein the indentation extends radially inward from a radially outer surface of the second auxiliary portion and from a radially outer surface of the hard composite portion, wherein the second auxiliary portion comprises a same material as the first auxiliary portion, and wherein respective machinability ratings of the first and second auxiliary portions are each greater than a machinability rating of the hard composite portion. 20. The infiltrated bit body of claim 1 , wherein the component of the auxiliary material comprises nickel-coated graphite.