Tool bit having a bimetal tip

The invention claimed is: 1. A tool bit composing: a drive portion configured to be selectively coupled to a tool, the drive portion being composed of a first material; a shank coupled to the drive portion, the shank being composed of the first material; and working end portion including a first segment and a second segment, the first segment coupled to the shank and being composed of the first material, the second segment fixed to the first segment at a connection interface, the second segment being composed of a second material different than the first material, the second segment configured to engage a fastener for the working end portion to drive the fastener, wherein a distance between the connection interface and a tip of the second segment is based on a first ratio of a maximum radial dimension at a location along the tool bit to a polar moment at the location, and wherein the first ratio is multiplied by a percentage difference between hardnesses of the first material and the second material. 2. The tool bit of claim 1 , whereto the distance between the connection interface and the tip is determined when a second ratio of a maximum radial dimension of the connection interface to a polar moment of the connection interface is less than or equal to the first ratio. 3. The tool bit of claim 2 , wherein the location is included on the shank. 4. The tool bit of claim 2 , wherein the location is included on the second segment, and wherein the second segment is configured to be received within the fastener to the location on the second segment in which the fastener ceases to engage the second segment. 5. The tool bit of claim 1 , wherein the second material has a hardness greater than a hardness of the first material. 6. The tool bit of claim 5 , wherein the second material is high speed steel. 7. The tool bit of claim 6 , wherein the first material is tool steel. 8. The tool bit of claim 1 , wherein the drive portion, the shank, and the first segment of the working end portion are formed from one piece of stock material. 9. The tool hit of claim 1 , wherein the second segment is welded to the first segment at the connection interface. 10. A tool bit comprising: a drive portion configured to be selectively coupled to a tool, the drive portion being composed of a first material; and a working end portion including a shape configured to correspond with a recess of a fastener for the working end portion to engage and drive the fastener, the working end portion including a first segment and a second segment, the first segment located between the second segment and the drive portion, the first segment composed of the first material, the second segment fixed to the first segment at a connection interface, the second segment being composed of a second material different than the first material, wherein a distance between the connection interface and a tip of the second segment is based on a first ratio of a maximum radial dimension at a location along the tool bit to a polar moment at the location, and wherein the first ratio is multiplied by a percentage difference between hardnesses of she first material and the second material. 11. The tool hit of claim 10 , wherein the distance between the connection interface and the tip is determined when a second ratio of a maximum radial dimension of the connection interlace to a polar moment of the connection interface is less than or equal to the first ratio. 12. The tool bit of claim 11 , Further comprising a shank between the drive portion and the working end portion, wherein the location is included on the shank. 13. The tool bit of claim 11 , wherein the location is included on the second segment, and wherein the second segment is configured to be received within the fastener to the location on the second segment in which the fastener ceases to engage the second segment. 14. The tool bit of claim 10 , wherein the second material has a hardness greater than a hardness of the first material. 15. The tool hit of claim 14 , wherein the second material is high speed steel. 16. The tool bit of claim 15 , wherein the first material is tool steel. 17. The tool bit of claim 10 , wherein the drive portion and the first segment of the working end portion are formed from one piece of stock material. 18. The tool bit of claim 10 , wherein the second segment is welded m the first segment at the connection interface. 19. A method of manufacturing a tool bit, the method comprising: providing a first stock of material composed of a first material; providing a second stock of material composed of a second material different than the first material; fixing the first stock of material and the second stock of material together to form a connection interface; determining a length of the second stock of material extending from the connection interface; shaping the first stock of material to form a first segment of a working end portion; and shaping the second stock of material based on the determined length to form a second segment of the working, end portion, the second segment configured to engage a fastener for the working end portion to drive the fastener, wherein determining the length of the second stock of material is based on a first ratio of a maximum radial dimension at a location along the first stock of material or the second stock of material to a polar moment at the location, and wherein the first ratio is multiplied by a percentage difference between hardnesses of the first material and the second material. 20. The method of claim 19 , wherein the determined length is when a second ratio of a maximum radial dimension of the connection interface to a polar moment of the connection interface is less than or equal to the first ratio. 21. The method of claim 20 , wherein shaping the first stock of material includes shaping a drive portion, a shank, and the first segment, wherein the drive portion is configured to be selectively coupled to a tool, wherein the shank is positioned between the drive portion and the first segment, and wherein the location is included on the shank. 22. The method of claim 20 , wherein the location is included on the second segment, and wherein the second segment is configured to be received within the fastener to the location on the second segment in which the fastener ceases to engage the second segment. 23. The method of claim 19 , further comprising adjusting the determined length based on a heat affect zone created by fixing the first and second stock materials together. 24. The method of claim 19 , wherein fixing the first stock of material and the second stock of material includes welding the first stock of material to the second stock of material.