Composite milling cutter

What is claimed is: 1. A composite milling cutter, comprising: a rotatable adapter plate having a raised key portion with a peripheral side wall, the peripheral side wall having a plurality of curved abutment surfaces symmetrically located on an inscribed circle, IC AP , defined by the raised key portion; and a cutter ring having an opening with a peripheral side wall for receiving the raised key portion of the adapter plate, the peripheral side wall having a plurality of curved abutment surfaces complimentary in shape to the curved abutment surfaces of the adapter plate and symmetrically located on an inscribed circle, IC CR , defined by the opening, Wherein a tolerance between the abutment surfaces of the peripheral side wall of the raised key portion and the abutment surfaces of the peripheral wall of the opening is such that run-out is minimized; wherein the raised key portion further comprises a plurality of lobes extending radially outward with respect to the inscribed circle, IC AP ; wherein the cutter ring further comprises a plurality of lobe-shaped openings extending radially outward with respect to the inscribed circle, IC CR ; and wherein the tolerance between the abutment surfaces of the peripheral side wall of the raised key portion and the abutment surfaces of the peripheral wall of the opening is tighter than a tolerance between the plurality of lobes and the plurality of lobe-shaped openings. 2. The composite milling cutter of claim 1 , wherein the composite milling cutter defines a central axis, a Y-axis which is perpendicular to and passes through the central axis, and an X-axis which is perpendicular to the central axis and the Y-axis and which passes through the central axis; and wherein a center of each of the curved abutment surfaces of the adapter plate are centrally located on lines that pass through a central axis one of the X-axis and the Y-axis of the composite milling cutter, and wherein a center of each of the curved abutment surfaces of the cutter ring are centrally located on lines that pass through the central axis one of the X-axis and the Y-axis of the composite milling cutter. 3. The composite milling cutter of claim 1 , wherein the raised key portion has a total of four convex abutment surfaces that are located ninety degrees apart from each other, and wherein the cutter ring has a total of four concave abutment surfaces that are located ninety degrees apart from each other. 4. The composite milling cutter of claim 1 , wherein the peripheral wall of the raised key portion further comprises a plurality of lobe abutment surfaces, and wherein the peripheral side wall of the cutter ring further comprises a plurality of lobe abutment surfaces. 5. The composite milling cutter of claim 4 , wherein the composite milling cutter defines a central axis, a Y-axis which is perpendicular to and passes through the central axis, and an X-axis which is perpendicular to the central axis and the Y-axis and which passes through the central axis; and wherein a center of each of the plurality of lobe abutment surfaces of the raised key portion are located on a bisector, B, between the X-axis and the Y-axis of the composite milling cutter, and wherein a center of each of the plurality of lobe abutment surfaces of the cutter ring are located on the bisector, B, between the X-axis and the Y-axis of the composite milling cutter. 6. The composite milling cutter of claim 4 , wherein the lobe abutment surfaces of the raised key portion are located ninety degrees apart from each other, and wherein the lobe abutment surfaces of the cutter ring are located ninety degrees apart from each other. 7. The composite milling cutter of claim 4 , wherein a tolerance between the lobe abutment surfaces of the adapter plate and the lobe abutment surfaces of the cutter ring minimizes relative rotation of the adapter plate with respect to the cutter ring. 8. The composite milling cutter of claim 7 , wherein the tolerance between the lobe abutment surfaces of the adapter plate and the lobe abutment surfaces of the cutter ring is 1 mm. 9. The composite milling cutter of claim 1 , wherein the tolerance between the abutment surfaces of the peripheral side wall of the raised key portion and the abutment surfaces of the peripheral wall of the opening is less than 15 microns. 10. A composite milling cutter, comprising: a rotatable adapter plate having a raised key portion with a peripheral side wall, the peripheral side wall having a plurality of curved abutment surfaces symmetrically located on an inscribed circle, IC AP , defined by the raised key portion, the raised key portion further comprising a plurality of lobes extending radially outward with respect to the inscribed circle, IC AP ; and a cutter ring having an opening with a peripheral side wall for receiving the raised key portion of the adapter plate, the peripheral side wall having a plurality of curved abutment surfaces complimentary in shape to the curved abutment surfaces of the adapter plate and symmetrically located on an inscribed circle, IC CR , defined by the opening, the cutter ring further comprises a plurality of lobe-shaped openings extending radially outward with respect to the inscribed circle, IC CR , wherein a tolerance between the curved abutment surfaces of the peripheral side wall of the raised key portion and the curved abutment surfaces of the peripheral side wall of the opening minimizes run-out, and wherein a tolerance between the lobe abutment surfaces of the adapter plate and the lobe abutment surfaces of the cutter ring minimizes relative rotation of the adapter plate with respect to the cutter ring; and wherein the tolerance between the lobe abutment surfaces of the adapter plate and the lobe abutment surfaces of the cutter ring permits a maximum relative rotation of about 1 mm. 11. The composite milling cutter of claim 10 , wherein the composite milling cutter defines a central axis, a Y-axis which is perpendicular to and passes through the central axis, and an X-axis which is perpendicular to the central axis and the Y-axis and which passes through the central axis; and wherein a center of each of the curved abutment surfaces of the adapter plate are centrally located on lines that pass through a central axis one of the X-axis and the Y-axis of the composite milling cutter, and wherein a center of each of the curved abutment surfaces of the cutter ring are centrally located on lines that pass through the central axis one of the X-axis and the Y-axis of the composite milling cutter. 12. The composite milling cutter of claim 10 , wherein the raised key portion has a total of four convex abutment surfaces that are located ninety degrees apart from each other, and wherein the opening has a total of four concave abutment surfaces that are located ninety degrees apart from each other. 13. A composite milling cutter, comprising: a rotatable adapter plate having a raised key portion with a peripheral side wall, the peripheral side wall having a plurality of curved abutment surfaces symmetrically located on an inscribed circle, IC AP , defined by the raised key portion, the peripheral side wall further comprising a plurality of lobe abutment surfaces, the raised key portion further comprising a plurality of lobes extending radially outward with respect to the inscribed circle, IC AP ; and a cutter ring having an opening with a peripheral side wall for receiving the raised key portion of the adapter plate, the peripheral side wall having a plurality of curved abutment surfaces complimentary in shape to the curved abutment surfaces of the adapter plate and symmetrically located on an inscribe