Cutter assembly and methods for making same

The invention claimed is: 1. A cutter assembly for a cutting tool, comprising a super-hard volume of super-hard material having a proximal end and a distal end and including a cavity; and a cover member comprising the super-hard material; the super-hard volume having a super-hard surface at the distal end including a cutting edge; the cavity having a cavity open end at the distal end; the super-hard surface including a cavity peripheral area coterminous with the cavity open end; the cover member including a cover peripheral area configured to mate with the cavity peripheral area to allow the cover member to cover the cavity at the cavity open end; the covered cavity providing a housing chamber within the super-hard volume. 2. A cutter assembly as claimed in claim 1 , including an electronic device housed within the housing chamber. 3. A cutter assembly as claimed in claim 1 , including a join layer joining the cover peripheral area to the cavity peripheral area, to attach the cover member to the super-hard volume and cover the cavity. 4. A cutter assembly as claimed in claim 3 , wherein the join layer comprises metallic alloy material. 5. A cutter assembly as claimed in claim 3 , wherein the join layer comprises metallic alloy including one or more of Al, Ni, Cu, Si, Au, Sn and In. 6. A cutter assembly as claimed in claim 3 , wherein the join layer comprises join material; and a region of the super-hard volume adjacent the cavity peripheral area includes a portion of the join material. 7. A cutter assembly as claimed in claim 1 , the super-hard material comprises diamond or cubic boron nitride (CBN) material. 8. A cutter assembly as claimed in claim 1 , wherein the cavity extends through the super-hard volume from the cavity open end to the proximal end. 9. A cutter assembly as claimed in claim 1 , comprising a substrate portion; the super-hard volume being joined to the substrate portion at an interface boundary coterminous with the proximal end of the super-hard volume. 10. A cutter assembly as claimed in claim 1 , the super-hard volume including a channel connecting the cavity to an aperture remote from the cavity. 11. A cutter assembly as claimed in claim 1 , the super-hard volume having a side connecting the proximal end and the distal end; wherein the cavity extends to the side. 12. A cutter assembly as claimed in claim 1 , the cavity peripheral area and the cover peripheral area comprising respective mating cone surfaces. 13. A method of making a cutter assembly as claimed in claim 1 , the method including: providing a super-hard volume of super-hard material having a proximal end and a distal end; processing the super-hard volume to form a cutting edge at the distal end; removing super-hard material from the distal end to form a cavity having a cavity open end, and a cavity peripheral area coterminous with the cavity open end; providing a body comprising the super-hard material, and processing the body to form a cover plate including a plate peripheral area configured to mate with the cavity peripheral area; and joining the plate peripheral area to the cavity peripheral area. 14. A method of making a cutter assembly as claimed in claim 13 , wherein joining the plate peripheral area to the cavity peripheral area includes: applying braze alloy material to at least one of the plate peripheral area or the cavity peripheral area; and heat treating the braze alloy material, to braze-join the plate peripheral area to the cavity peripheral area. 15. A method of making a cutter assembly as claimed in claim 13 , wherein joining the plate peripheral area to the cavity peripheral area includes: applying diffusion bonding material to at least one of the plate peripheral area or the cavity peripheral area; and applying pressure to the cover plate to diffusion-bond the plate peripheral area to the cavity peripheral area.