Cemented carbide powders for additive manufacturing

The invention claimed is: 1. A powder composition comprising: a particle component comprising free flowing sintered cemented carbide particles having apparent density of at least 6 g/cm 3 to 11 g/cm 3 and a bimodal size distribution or multi-modal size distribution. 2. The powder composition of claim 1 , wherein the apparent density of the free flowing sintered cemented carbide particles is 7 g/cm 3 to 11 g/cm 3 . 3. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have an average individual particle density of at least 80 percent theoretical density. 4. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have an average individual particle density of at least 90 percent theoretical density. 5. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have an average individual particle density of 80 to 95 percent theoretical density. 6. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have an average size of 1 μm to 100 μm. 7. The powder composition of claim 6 , wherein the free flowing sintered cemented carbide particles are spherical or substantially spherical. 8. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles comprise one or more metal carbides selected from the group consisting of Group IVB metal carbides, Group VB metal carbides and Group VIB metal carbides. 9. The powder composition of claim 8 , wherein the free flowing sintered cemented carbide particles comprise tungsten carbide. 10. The powder composition of claim 9 , wherein the free flowing sintered cemented carbide particles further comprise at least one Group VB metal carbide. 11. The powder composition of claim 9 , wherein the free flowing sintered cemented carbide particles do not comprise non-stoichiometric metal carbides. 12. The powder composition of claim 11 , wherein the non-stoichiometric metal carbides include eta phase. 13. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles comprise metallic binder in an amount of 0.1 to 35 weight percent. 14. The powder composition of claim 13 , wherein the metallic binder is selected from the group consisting of cobalt, nickel, iron and alloys thereof. 15. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have a ratio of tap density to the apparent density of 1.05 to 1.25. 16. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have a bimodal size distribution. 17. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles have a multi-modal size distribution. 18. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles comprise metallic binder comprising cobalt, nickel, iron, and alloys thereof. 19. The powder composition of claim 18 , wherein the metallic binder further comprises an additive selected from the group consisting of platinum, palladium, rhenium, rhodium, ruthenium, molybdenum, and alloys thereof. 20. The powder composition of claim 1 , wherein the free flowing sintered cemented carbide particles comprise a mixture of irregularly shaped particles with spherical or substantially spherical particles. 21. A powder composition comprising: a particle component comprising free flowing sintered cemented carbide particles having apparent density of at least 6 g/cm 3 to 11 g/cm 3 , the free flowing sintered cemented carbide particles comprising a mixture of irregularly shaped particles with spherical or substantially spherical particles.