Apparatus and method for thermal transfer printing

What is claimed is: 1. A printing apparatus comprising: a band of material capable of holding hot melt ink thereon; rollers configured and arranged to hold and transport the band with respect to a substrate; a printhead configured and arranged to thermally transfer a portion of the ink from the band to the substrate to print on the substrate; a heated ink roller comprising a textured outer surface, wherein a first side of the heated ink roller contacts the band to cause ink on the band to re-melt, flow and replace at least some of the portion of the ink transferred to the substrate previously before arriving at the printhead again for a next print, and a second side of the heated ink roller receives new ink on the textured outer surface, wherein the textured outer surface of the ink roller has a surface roughness greater than or equal to 3.2 microns; and a blade configured and arranged to control an amount of ink retained by the textured outer surface of the ink roller, such that a uniform coating of ink, between 3 and 7 microns thick, is applied to the band. 2. The printing apparatus of claim 1 , wherein the heated ink roller comprises an anilox roll or a gravure cylinder. 3. The printing apparatus of claim 2 , comprising an ink delivery device configured and arranged to put solid ink in contact with the textured outer surface on the second side of the heated ink roller to supply the new ink. 4. The printing apparatus of claim 2 , comprising an ink reservoir configured and arranged to hold molten or semi-solid ink in contact with the textured outer surface on the second side of the heated ink roller to supply the new ink. 5. The printing apparatus of claim 4 , comprising an additional blade configured and arranged to keep debris from rolling into the ink reservoir. 6. The printing apparatus of claim 2 , comprising a motor that always drives the band in one direction. 7. The printing apparatus of claim 2 , wherein at least one of the rollers configured and arranged to hold and transport the band comprises a drive roller. 8. The printing apparatus of claim 7 , comprising a nip roller used in conjunction with the drive roller to move the band. 9. The printing apparatus of claim 7 , wherein at least one of the rollers configured and arranged to hold and transport the band comprises a spring loaded tension roller. 10. The printing apparatus of claim 2 , wherein the band is kept at approximately 6 Newtons of tension. 11. The printing apparatus of claim 2 , wherein the band comprises a polyimide film, an engineering plastic, or a metal ribbon. 12. A thermal transfer printing system comprising: a print roller or platen configured and arranged to support a substrate; a band of material capable of holding hot melt ink thereon; rollers configured and arranged to hold and transport the band with respect to the substrate; a printhead configured and arranged to thermally transfer a portion of the ink from the band to the substrate to print on the substrate; a heated ink roller comprising a textured outer surface, wherein a first side of the heated ink roller contacts the band to cause ink on the band to re-melt, flow and replace at least some of the portion of the ink transferred to the substrate previously before arriving at the printhead again for a next print, and a second side of the heated ink roller receives new ink on the textured outer surface, wherein the textured outer surface of the ink roller has a surface roughness greater than or equal to 3.2 microns; a blade configured and arranged to control an amount of ink retained by the textured outer surface of the ink roller, such that a uniform coating of ink, between 3 and 7 microns thick, is applied to the band; and a control system configured to control the band to match a speed of the substrate. 13. The thermal transfer printing system of claim 12 , wherein the heated ink roller comprises an anilox roll or a gravure cylinder. 14. The thermal transfer printing system of claim 13 , comprising an ink delivery device configured and arranged to put solid ink in contact with the textured outer surface on the second side of the heated ink roller to supply the new ink. 15. The thermal transfer printing system of claim 13 , comprising an ink reservoir configured and arranged to hold molten or semi-solid ink in contact with the textured outer surface on the second side of the heated ink roller to supply the new ink. 16. The thermal transfer printing system of claim 15 , comprising an additional blade configured and arranged to keep debris from rolling into the ink reservoir. 17. The thermal transfer printing system of claim 13 , comprising a motor that always drives the band in one direction. 18. The thermal transfer printing system of claim 13 , wherein at least one of the rollers configured and arranged to hold and transport the band comprises a drive roller. 19. The thermal transfer printing system of claim 18 , comprising a nip roller used in conjunction with the drive roller to move the band. 20. The thermal transfer printing system of claim 18 , wherein at least one of the rollers configured and arranged to hold and transport the band comprises a spring loaded tension roller. 21. The thermal transfer printing system of claim 13 , wherein the band is kept at approximately 6 Newtons of tension. 22. The thermal transfer printing system of claim 13 , wherein the band comprises a polyimide film, an engineering plastic, or a metal ribbon.