Cutting insert and milling cutter including same

The invention claimed is: 1. A cutting insert mountable in an insert pocket of a milling cutter, comprising: a top surface; a bottom surface; a plurality of peripheral surfaces extending between the top surface and the bottom surface; a mounting hole extending through the top surface and the bottom surface; a plurality of cutting edges formed at intersections between the top surface and the peripheral surfaces; a protrusion portion protruding from the bottom surface and extending across the mounting hole, the protrusion portion forming the bottommost portion of the cutting insert in a side view thereof; and a pair of lower inclined abutment surfaces provided on opposite edges of the bottom surface, the edges extending along the protrusion portion on either side of the mounting hole, the lower inclined abutment surfaces being inclined in opposite directions toward a pair of opposing peripheral surfaces, outwardly and upwardly relative to the protrusion portion. 2. The cutting insert of claim 1 , wherein the plurality of cutting edges comprises a pair of major cutting edges provided in a longitudinal direction of the cutting insert and a pair of minor cutting edges provided in a lateral direction of the cutting insert between the major cutting edges, and wherein the major cutting edge is longer than the minor cutting edge. 3. The cutting insert of claim 2 , wherein when viewed from top, the major cutting edge and the minor cutting edge adjoin each other with an interior angle of 110 degrees to 130 degrees. 4. The cutting insert of claim 1 , wherein the protrusion portion has a shape rotationally symmetrical about a central axis of the mounting hole by 180 degrees. 5. The cutting insert of claim 1 , wherein the protrusion portion comprises a pair of protrusions separated by the mounting hole, and wherein each protrusion comprises: a pair of lateral surfaces, each lateral surface facing in a direction of one of the lower inclined abutment surfaces; and a flat bottom surface located between the pair of lateral surfaces. 6. The cutting insert of claim 5 , wherein the lateral surface of the protrusion has a slope of 0 degree to 15 degrees relative to a direction perpendicular to the bottom surface of the protrusion. 7. The cutting insert of claim 6 , wherein when the slope of the lateral surface of the protrusion is 0 degree, the protrusion has a width of ⅓ of a width of the top surface. 8. The cutting insert of claim 5 , wherein the lateral surface of the protrusion has a bottom edge chamfered to a beveled or rounded surface. 9. The cutting insert of claim 5 , wherein the pair of the protrusions extend in a longitudinal direction of the cutting insert or at an angle to the longitudinal direction of the cutting insert. 10. The cutting insert of claim 5 , wherein the pair of the protrusions extend in a wavy shape. 11. The cutting insert of claim 5 , wherein the lower inclined abutment surface has a slope of 10 degrees to 30 degrees relative to the bottom surface of the protrusion. 12. A milling cutter, comprising: the cutting insert of claim 1 ; a cutter body having a plurality of insert pockets for mounting the cutting insert, wherein each insert pocket comprises: two side walls supporting adjacent two peripheral surfaces of the cutting insert; a base wall having an inclined wall located radially outwardly in the insert pocket and protruding slantingly, the inclined wall supporting a radially outward one of the pair of the lower inclined abutment surfaces of the cutting insert; a recess portion recessed in the base wall and receiving the protrusion portion protruding from the bottom surface of the cutting insert; and a threaded hole located in the recess portion. 13. The milling cutter of claim 12 , wherein the recess portion receives the protrusion portion of the cutting insert with a gap such that the protrusion portion does not contact the recess portion, and wherein as a revolution speed of the cutter body increases, the protrusion portion comes into contact with and is supported by a radially outward side wall of the recess portion. 14. The milling cutter of claim 12 , wherein the inclined wall of the base wall is inclined relative to the base wall at the same slope as that of the lower inclined abutment surface of the cutting insert. 15. A milling cutter comprising: a cutter body having an least one insert pocket; and the cutting insert of claim 1 mounted in the at least one insert pocket. 16. The milling cutter of claim 15 , wherein: the cutting insert's protrusion portion has a lateral surface facing in a radially outward direction of the milling cutter; the lateral surface does not contact the insert pocket when the milling cutter is not rotating; and the lateral surface contacts the insert pocket only when the milling cutter rotates at a sufficiently high speed. 17. The milling cutter of claim 15 , wherein: the at least one insert pocket comprises: first and second pocket side walls; a pocket base wall having an inclined wall located radially outwardly in the insert pocket; a recess portion formed in the pocket in the base wall, the recess portion having a recess portion bottom wall and a radially outward side wall; and a threaded hole located in the recess portion bottom wall; and the cutting insert is mounted in the at least one insert pocket with: the cutting insert's protrusion portion received into the recess portion without contacting the recess portion's radially outward side wall; the first and second pocket side walls supporting adjacent first and second peripheral surfaces of the cutting insert; and the inclined wall of the insert pocket's base wall supporting one of the pair of the lower inclined abutment surfaces of the cutting insert. 18. The milling cutter of claim 17 , wherein the inclined wall of the base wall is inclined relative to the base wall at the same slope as that of the lower inclined abutment surface of the cutting insert. 19. The milling cutter of claim 18 , wherein the protrusion portion has a bottom surface; and each of the lower inclined abutment surfaces has a slope of 10 degrees to 30 degrees relative to the bottom surface of the protrusion portion. 20. The cutting insert of claim 1 , wherein: the protrusion portion has a bottom surface; and each of the lower inclined abutment surfaces has a slope of 10 degrees to 30 degrees relative to the bottom surface of the protrusion portion.