Manufacture of large grain powders with granular coatings

I claim: 1. A nuclear fuel comprising: a bulk fuel material in a powder form; and a fuel additive component selected from the group consisting of metal, metal alloy, metal oxide, metalloid oxide, metal carbide, metalloid carbide, metal nitride, metalloid nitride, metal boride, metalloid boride and mixtures or alloys thereof in a powder form, wherein a grain size of the bulk fuel material is larger than a grain size of the fuel additive component, wherein a volume ratio of the grain size of the fuel additive component to the grain size of the bulk fuel material is greater than 4*Rs/Rl, wherein “Rs” is the radius of the smaller grains in the fuel additive component and “Rl” is the radius of the larger grains in the bulk fuel material. 2. The nuclear fuel of claim 1 , wherein the grain size in the fuel additive component is less than Vr*Rl/4, wherein “Vr” is the volume ratio of the grain size of the fuel additive component to the grain size of the bulk fuel material. 3. The nuclear fuel of claim 1 , wherein the fuel additive component is selected from the group consisting of Cr, Zr, Al, AlCr alloy, UO 2 , BeO, ZrO 2 , Cr 2 O 3 , TiO 2 , Y 2 O 3 and mixtures and combinations thereof. 4. The nuclear fuel of claim 1 , wherein the fuel additive component is in the form of a glass comprising a compound selected from the group consisting of Al, B, Si, Na, Li, and compounds and combinations thereof. 5. The nuclear fuel of claim 1 , wherein the bulk fuel material is selected from the group consisting of UN, U3 Si 2 , and UO 2 , and mixtures and combinations thereof. 6. The nuclear fuel of claim 1 , wherein the volume ratio is less than 10%. 7. A method of incorporating a fuel additive component to a nuclear fuel, comprising: obtaining a bulk fuel material in powder form; selecting the fuel additive component from the group consisting of metal, metal alloy, metal oxide, metalloid oxide, metal carbide, metalloid carbide, metal nitride, metalloid nitride, metal boride, metalloid boride and mixtures or alloys thereof in powder form, wherein the grain size of the bulk fuel material is larger than the grain size of the fuel additive component; and combining the bulk fuel material with the fuel additive component in selected amounts to achieve a volume ratio of the grain size of the fuel additive component to the grain size of the bulk fuel material is greater than 4*Rs/Rl, wherein “Rs” is the radius of the smaller grains in the fuel additive component and “Rl” is the radius of the larger grains in the bulk fuel material. 8. The method of claim 7 , wherein the fuel additive component is selected such that the grain size is less than Vr*Rl/4, wherein “Vr” is the volume ratio of the gran size of the fuel additive component to the grain size of the bulk fuel material. 9. The method of claim 7 , wherein smaller grains of the fuel additive component coat larger grains of the bulk fuel material. 10. The method of claim 7 , wherein incorporating the fuel additive component to the bulk fuel material produces a resultant fuel composition having improved water resistance compared to a fuel composition absent of the fuel additive component. 11. The method of claim 7 , wherein the volume ratio is less than 10% by milling the fuel additive. 12. A nuclear fuel pellet, comprising: a first material composed of bulk uranium; and a coating composed of a second material selected from the group consisting of metal, metal alloy, metal oxide, metalloid oxide, metal carbide, metalloid carbide, metal nitride, metalloid nitride, metal boride and metalloid boride and mixtures or alloys, deposited on the first material, wherein the first material has a grain size greater than the grain size of the second material, wherein a volume ratio of the grain size of the fuel additive component to the grain size of the bulk fuel material is greater than 4*Rs/Rl, wherein “Rs” is the radius of the smaller grains in the fuel additive component and “Rl” is the radius of the larger grains in the bulk fuel material. 13. The nuclear fuel pellet of claim 12 , wherein the volume ratio is less than 10%.