Cutting head having segmented cutting disc

What is claimed is: 1. A cutting device for engaging a rock face, the cutting device comprising: a disc body supported for rotation about an axis of rotation, the disc body including a plurality of peripheral surfaces, each of the peripheral surfaces oriented in a plane at an oblique angle relative to the axis of rotation; and a plurality of peripheral portions removably secured to the disc body, each of the peripheral portions engaging an associated one of the peripheral surfaces, each of the peripheral portions including a plurality of cutting bits positioned on a peripheral edge, the peripheral edge of each peripheral portion aligned with the peripheral edges of adjacent peripheral portions. 2. The cutting device of claim 1 , wherein each of the peripheral portions is independently secured to the disc body. 3. The cutting device of claim 1 , wherein the disc body includes a plurality of slots, wherein each of the peripheral portions includes a protrusion positioned within an associated one of the slots. 4. The cutting device of claim 3 , wherein each protrusion is secured within the associated one of the slots by a fastener extending through the protrusion and through at least a portion of the disc body. 5. The cutting device of claim 1 , wherein the peripheral portions are positioned around the axis of rotation and the peripheral edges form a round profile extending around the axis of rotation, the cutting bits of the peripheral portions positioned in a common cutting plane. 6. The cutting device of claim 1 , wherein each peripheral portion includes a first end and a second end, wherein the peripheral portions are positioned in an end-to-end relationship around the axis of rotation, the first end of one peripheral portion being positioned adjacent the second end of an adjacent peripheral portion. 7. The cutting device of claim 1 , wherein each peripheral portion extends through an angle about the axis of rotation, the angle being between approximately 30 degrees and approximately 120 degrees. 8. The cutting device of claim 1 , wherein each peripheral portion includes a plurality of bores positioned on the peripheral edge, each of the cutting bits being positioned within an associated one of the bore. 9. The cutting device of claim 8 , wherein each peripheral portion further includes a plurality of extraction holes, each of the bores being in communication with an associated extraction hole to facilitate removal of the cutting bits from the peripheral portion. 10. A cutting head for engaging a rock wall, the cutting head comprising: a boom configured to be supported on a frame; a drive mechanism; and a cutting device supported on the boom and driven by the drive mechanism, the cutting device including, a disc body supported for rotation about an axis of rotation, the disc body including a plurality of peripheral surfaces, each of the peripheral surfaces oriented in a plane at an oblique angle relative to the axis of rotation, and a plurality of peripheral portions removably secured to the disc body, each of the peripheral portions engaging an associated one of the peripheral surfaces, each of the peripheral portions including a plurality of cutting bits positioned on a peripheral edge, the peripheral edge of each peripheral portion aligned with the peripheral edges of adjacent peripheral portions. 11. The cutting device of claim 10 , wherein each of the peripheral portions is independently secured to the disc body. 12. The cutting device of claim 10 , wherein the disc body includes a plurality of slots, wherein each of the peripheral portions includes a protrusion positioned within an associated one of the slots, each protrusion being secured within the associated one of the slots by a fastener extending through the protrusion and through at least a portion of the disc body. 13. The cutting device of claim 10 , wherein the peripheral portions are positioned around the axis of rotation and the peripheral edges form a round profile extending around the axis of rotation, the cutting bits of the peripheral portions positioned in a common cutting plane. 14. The cutting device of claim 10 , wherein each peripheral portion includes a first end and a second end, wherein the peripheral portions are positioned in an end-to-end relationship around the axis of rotation, the first end of one peripheral portion being positioned adjacent the second end of an adjacent peripheral portion. 15. The cutting device of claim 10 , wherein each peripheral portion extends through an angle about the axis of rotation, the angle being between approximately 30 degrees and approximately 120 degrees. 16. A cutting device for engaging a rock face, the cutting device comprising: a disc body supported for rotation about an axis of rotation, the disc body including a first surface and a second surface, the first surface oriented orthogonally with respect to the axis of rotation, the first surface positioned adjacent the axis of rotation, the second surface radially spaced apart from the axis of rotation; and a cutting member supported on the second surface of the disc body and radially spaced apart from the axis of rotation, the cutting member including a peripheral edge and a plurality of cutting bits positioned along the peripheral edge, the peripheral edge having a round shape, the cutting member formed as a plurality of cutting portions independently and removably secured to the disc body, each of the cutting portions supporting some of the cutting bits. 17. The cutting device of claim 16 , wherein the disc body includes a plurality of slots, wherein each of the cutting portions includes a protrusion positioned within an associated one of the slots, each protrusion being secured within the associated one of the slots by a fastener extending through the protrusion and through at least a portion of the disc body. 18. The cutting device of claim 16 , wherein the cutting bits are positioned in a common cutting plane. 19. The cutting device of claim 16 , wherein each cutting portion includes a first end and a second end, wherein the cutting portions are positioned in an end-to-end relationship to form the cutting member, the first end of one cutting portion being positioned adjacent the second end of an adjacent cutting portion.