Coated hole cutter

What is claimed is: 1. A hole cutter defining an axis of rotation for cutting a work piece and generating chips upon cutting the work piece, comprising: a substantially cylindrical blade body extending about the axis of rotation, a cap located at one end of the blade body, and a cutting edge located at an opposite end of the blade body relative to the cap, wherein the blade body defines a flat substantially cylindrical exterior surface extending from the one end of the blade body to the cutting edge and a substantially cylindrical interior surface, the cap defines exterior and interior surfaces, the cutting edge defines exterior and interior surfaces, and the interior surface of the blade body extends from the cap to the interior surface of the cutting edge, the blade body defines a heat resistant non-metallic coating defining a colored band disposed on and extending axially and annularly throughout a substantial portion of the flat exterior cylindrical surface of the blade body and axially spaced from the cutting edge a first distance, wherein the heat resistant non-metallic coating does not soften when subjected to frictional forces encountered by the flat exterior cylindrical surface during cutting, the flat exterior surface of the cutting edge defines a metallic finish forming a metallic band extending about the periphery of the blade body at the cutting edge, extending axially between the cutting edge and the heat resistant non-metallic colored coating band, and contrasting in color with the heat resistant non-metallic colored coating band, the interior surfaces of the cylindrical blade body and cutting edge define a metallic finish, and the metallic finish maintains the interfaces between the exterior and interior surfaces of the cutting edge, and the interior surface of the blade body, and a work piece, substantially free of any coating that softens and mixes with the chips generated upon cutting the work piece. 2. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating forms a substantially cylindrical band extending throughout a cylindrical portion of the blade body spaced a first distance relative to the cutting edge. 3. The hole cutter of claim 2 , wherein the cylindrical heat resistant non-metallic coating band defines a substantially straight edge spaced the first distance relative to the cutting edge. 4. The hole cutter of claim 2 , wherein the cutting edge is defined by a plurality of teeth defining tips and gullets extending between the tips, each gullet defines a depth, and the first distance is greater than the depth of the deepest gullet. 5. The hole cutter of claim 4 , wherein the first distance is at least about 1/10 inch greater than the deepest gullet. 6. The hole cutter of claim 5 , wherein the first distance is less than about ½ inch greater than the deepest gullet. 7. The hole cutter of claim 6 , wherein the first distance is less than about ¼ inch greater than the deepest gullet. 8. The hole cutter of claim 4 , wherein the first distance is measured from either (i) a deepest gullet of the cutting edge, or (ii) a plane extending between tips of unset teeth. 9. The hole cutter of claim 2 , wherein the heat resistant non-metallic coating extends throughout substantially the entire cylindrical band. 10. The hole cutter of claim 2 , wherein the heat resistant non-metallic coating band is spaced inwardly from an axial end surface of the cap, and the cap defines a metallic finish. 11. The hole cutter of claim 10 , wherein the heat resistant non-metallic coating band is spaced inwardly from the axial end surface of the cap a second distance that is approximately equal to the first distance. 12. The hole cutter of claim 1 , wherein the metallic finish is a steam oxide finish. 13. The hole cutter of claim 1 , wherein the metallic finish on the cutting edge is defined by a metallic coating. 14. The hole cutter of claim 13 , wherein the metallic coating is a PVD coating. 15. The hole cutter of claim 14 , wherein the PVD coating is at least one of titanium nitride, aluminum titanium nitride, and a combination of titanium nitride and aluminum titanium nitride. 16. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating band covers greater than about 75% of the flat external surface area of the flat cylindrical blade body. 17. The hole cutter of claim 16 , wherein the heat resistant non-metallic coating band covers greater than about 90% of the flat external surface area of the flat cylindrical blade body. 18. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating comprises an ink or a paint. 19. The hole cutter of claim 18 , wherein the heat resistant non-metallic coating comprises at least one of a dye, an ink containing dye, a photo, light or radiation curable ink, a heat or hot air drying ink, and a solvent based ink. 20. The hole cutter of claim 18 , wherein the heat resistant non-metallic coating is a UV curable ink. 21. The hole cutter of claim 1 , wherein the metallic finish is a steam tempered, dark-colored oxide finish. 22. The hole cutter of claim 21 , wherein the oxide finish is a film of iron oxide. 23. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating covers at least a portion of the external surface of the cap. 24. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating band defines a label including thereon at least one of a trademark, logo, manufacturer identification or part number. 25. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating is softenable from heat generated during cutting with the hole cutter, and said first distance is sufficient so that the heat resistant non-metallic coating does not soften from heat generated during cutting with the hole cutter. 26. The hole cutter of claim 1 , wherein the first distance is selected so that the coating does not interfere with at least one of (i) removal of a slug from an interior of the hole cutter; (ii) cutting efficiency of the hole cutter; and (iii) chip ejection from the hole cutter due to heat or friction generated between the blade body and the work piece during cutting. 27. The hole cutter of claim 1 , wherein the heat resistant non-metallic coating includes a non-stick or friction-reducing property. 28. The hole cutter of claim 1 , wherein the blade body has a wall thickness within the range of 0.032 inch to 0.038 inch. 29. A hole cutter defining an axis of rotation for cutting a work piece and generating chips upon cutting the work piece, comprising: a substantially cylindrical blade body extending about the axis of rotation, a cap located at one end of the blade body, and a cutting edge located at an opposite end of the blade body relative to the cap, wherein the blade body defines a flat substantially cylindrical exterior surface extending from the one end of the blade body to the cutting edge and a substantially cylindrical interior surface, the cap defines exterior and interior surfaces, the cutting edge defines exterior and interior surfaces, and the interior surface of the blade body extends from the cap to the interior surface of the cutting edge, the blade body defines a first heat resistant non-metallic means for decorating the hole cutter and for receiving thereon at least one of a trademark, logo, manufac