Coated iron ore pellets and a process of making and reducing the same to form reduced iron pellets

The invention claimed is: 1. Iron ore pellets comprising: a core comprising iron ore; a first coating comprising lime, bauxite, or a combination thereof; and a second coating comprising cement, wherein the first coating is disposed between a surface of the core and the second coating, wherein the second coating comprises grains with an average particle size of 1-20 μm. 2. Iron ore pellets comprising: a core comprising iron ore; a first coating comprising lime, bauxite, or a combination thereof; and a second coating comprising cement, wherein the first coating is disposed between a surface of the core and the second coating; wherein an average thickness of the first coating and the second coating are each individually 50-100 μm. 3. The iron ore pellets of claim 2 , wherein the first coating covers greater than 75% of the surface of the core. 4. The iron ore pellets of claim 2 , wherein the first coating covers greater than 85% of the surface of the core. 5. The iron ore pellets of claim 2 , which have a wt. % of the first coating ranging from 0.05-1% relative to the total weight of the iron ore pellets, and/or a wt. % of the second coating ranging from 0.05-2% relative to the total weight of the iron ore pellets. 6. The iron ore pellets of claim 2 , wherein an average thickness of the first coating and the second coating are each individually 100 μm. 7. The iron ore pellets of claim 2 , wherein the second coating covers greater than 75% of the surface of the first coating. 8. The iron ore pellets of claim 2 , wherein the first coating contains lime. 9. The iron ore pellets of claim 2 , wherein the first coating contains bauxite. 10. The iron ore pellets of claim 2 , wherein the first coating contains lime and bauxite. 11. The iron ore pellets of claim 2 , wherein the first and second coating reduce the formation of agglomerated iron ore pellets compared to a core without the first coating, the second coating, or both. 12. The iron ore pellets of claim 11 , which have a % agglomeration of less than 5% in terms of the wt. % of agglomerated iron ore pellets with a longest length of at least 25 mm relative to the total weight of the iron ore pellets. 13. The iron ore pellets of claim 2 , wherein the thickness of the first and second coating decreases by no more than 60% after rotating the iron ore pellets at 10-30 rpm, in terms of the average coating thickness of the sum of the first and second coating. 14. A process for manufacturing the iron ore pellets of claim 2 , comprising: applying lime and/or bauxite to a core comprising iron ore to form a coated core coated with a first coating; measuring a surface area coverage of the first coating on the core; applying cement to the coated core to form the iron ore pellets coated with the first coating and the second coating; and measuring a surface area coverage of the second coating on the first coating, wherein the first coating is applied to the core as a slurry comprising 10-30 wt. % of lime and/or bauxite relative to the total weight of the slurry, and the second coating is applied to the core coated with a first coating as a slurry comprising 10-30 wt. % of cement relative to the total weight of the slurry. 15. The process of claim 14 , further comprising rotating the iron ore pellets at 10-30 rpm and determining the % reduction of a thickness of the first and second coating after the rotating, in terms of the average coating thickness of the sum of the first and second coating. 16. The process of claim 14 , wherein the first coating is bauxite. 17. A process for manufacturing reduced iron pellets, comprising: applying lime and/or bauxite to a core comprising iron ore to form a coated core coated with a first coating; applying cement to the coated core to form the iron ore pellets of claim 2 coated with the first coating and the second coating; and reducing the iron ore pellets with a reducing gas at temperatures up to 1100° C. to form reduced iron pellets; and tumbling the reduced iron pellets and weighing agglomerated reduced iron pellets with a longest length of at least 25 mm relative to the total weight of the reduced iron pellets to determine a % agglomeration. 18. The process of claim 17 , further comprising rotating the reduced iron pellets at 10-30 rpm and determining the % reduction of a thickness of the first and second coating after the rotating, in terms of the average coating thickness of the sum of the first and second coating.