Saw blade having thin film ceramic coating

The invention claimed is: 1. A saw blade comprising: a body having a first end, a second end, and an edge extending between the first and second ends; a tang coupled to the first end of the body and including an aperture, the tang and the aperture configured to couple the saw blade to a power tool; a plurality of teeth extending from the edge of the body along substantially an entire length of the body and defining a cutting portion, each tooth of the plurality of teeth including a substrate forming a tip of each tooth; and a thin film ceramic coating overlaying an entirety of each tooth of the plurality of teeth, but not overlaying the body; wherein the thin film ceramic coating has a greater strength than the substrate, wherein each substrate includes carbide and is edge prepped to refine a micro geometry of the plurality of teeth, wherein the thin film ceramic coating is applied after the substrates are edge prepped, and wherein a thickness of the thin film ceramic coating varies at locations where the substrates are edge prepped. 2. The saw blade of claim 1 , wherein the body and the plurality of teeth form a single monolithic component. 3. The saw blade of claim 1 , wherein the substrate is received by a pocket provided on the at least one tooth. 4. The saw blade of claim 1 , wherein the thin film ceramic coating overlays the substrate on each of the plurality of teeth. 5. The saw blade of claim 1 , wherein the thin film ceramic coating is applied to the substrate via physical vapor deposition. 6. The saw blade of claim 1 , wherein the thin film ceramic coating has the thickness between approximately 3.0 micrometers and approximately 4.0 micrometers. 7. The saw blade of claim 6 , wherein the thickness of the thin film ceramic coating is approximately 3.5 micrometers. 8. The saw blade of claim 1 , wherein the thin film ceramic coating is composed of one selected from a group consisting of aluminum titanium nitride, aluminum chromium nitride, aluminum titanium chromium nitride, and titanium molybdenum nitride. 9. The saw blade of claim 1 , wherein the thin film ceramic coating increases heat dissipation during a cutting operation. 10. The saw blade of claim 1 , wherein the substrate is a separate component that is secured onto the at least one tooth via welding. 11. The saw blade of claim 1 , wherein the substrate is composed of one selected from a group consisting of H6F grade carbide having a sub-micron grain size, H10F grade carbide having a sub-micron grain size, and H15F grade carbide having a sub-micron grain size. 12. The saw blade of claim 1 , wherein the thin film ceramic coating is composed of an aluminum-based material. 13. The saw blade of claim 1 , wherein the thin film ceramic coating is only applied to the entire cutting portion. 14. A saw blade comprising: a body having an edge; a tang coupled to the body and including an aperture, the tang and the aperture configured to couple the saw blade to a power tool; a cutting portion disposed on the edge of the body and including a plurality of teeth extending along the edge, each tooth having a rake face, a relief face, a gullet, and a lip; a plurality of substrates, each substrate coupled to the lip of one of the plurality of teeth to form a tip of the one of the plurality of teeth; and a thin film ceramic coating overlaying an entirety of the cutting portion, such that the rake face, the relief face, the gullet, the lip, and the substrate of each tooth along an entire length of the saw blade are covered by the thin film ceramic coating, wherein the thin film ceramic coating has a greater strength than the substrate, wherein each substrate is composed of tungsten carbide alloy having a sub-micron grain size and is edge prepped to refine a micro geometry of the plurality of teeth, wherein the thin film ceramic coating has a thickness between approximately 3.0 micrometers and approximately 4.0 micrometers, wherein the thin film ceramic coating is applied after the plurality of substrates are edge prepped, and wherein a thickness of the thin film ceramic coating varies at locations where the plurality of substrates is edge prepped. 15. The saw blade of claim 14 , wherein the thin film ceramic coating overlays an entirety of the body. 16. The saw blade of claim 14 , wherein the substrate is a separate component that is secured onto each tooth via welding. 17. The saw blade of claim 14 , wherein the thin film ceramic coating is composed of one selected from a group consisting of aluminum titanium nitride, aluminum chromium nitride, aluminum titanium chromium nitride, and titanium molybdenum nitride. 18. The saw blade of claim 14 , wherein the thin film ceramic coating is applied to the entire cutting portion, but not including the body.