Cutting insert and method of manufacturing the same

1 . A cutting insert including a surface involved in cutting, for which a cutting tool material composed of one of cBN based sintered body, ceramics, and cermet is used, the cutting insert comprising: a flank face; a nose R portion; a rake face having a positive rake angle; and a negative land with unequal width disposed between the rake face and the flank face, wherein a radius of the nose R portion is 0.4 mm or greater and 2.4 mm or less, an apex angle α of the nose R portion is 30° or greater and 95° or less, a rake angle β at a position of a bisecting plane of the apex angle of the nose R portion is 1° or greater and 10° or less, a ridge line where the negative land with unequal width and the rake face intersect, and a ridge line where the negative land with unequal width and the flank face intersect are not parallel in plan view, and at least on one side of the negative land with respect to a boundary which is an apex of a nose R portion cutting edge, a width of the negative land with unequal width gradually decreases from the apex of the nose R portion cutting edge to a position at which the nose R portion cutting edge is connected to a linear cutting edge, and let W 1 be the width of the negative land with unequal width in plan view at the apex of the nose R portion cutting edge, and W 2 be the width of the negative land with unequal width in plan view at the position at which the nose R portion cutting edge is connected to the linear cutting edge, then the W 1 is 0.04 mm or greater and 0.2 mm or less, and a ratio of the W 1 to the W 2 is 1.5 or greater. 2 . The cutting insert according to claim 1 , wherein the cutting tool material is integrally held with a corner portion, involved in cutting, of a base metal, and the flank face, the nose R portion, the cutting edge, and the negative land with unequal width are formed in the cutting tool material. 3 . The cutting insert according to claim 1 , wherein a radius of the nose R portion is one of 0.8 mm, 1.2 mm, and 1.6 mm, the apex angle α of the nose R portion is one of 35°, 55°, 60°, 80°, and 90°, the rake angle β is 1° or greater and 7° or less, and the ratio of the W 1 to the W 2 is 1.5 or greater and 200 or less. 4 . The cutting insert according to claim 1 , wherein the ratio of the W 1 to the W 2 is 2 or greater and 60 or less. 5 . The cutting insert according to claim 1 , wherein in the negative land with unequal width, on one side with respect to the boundary which is the apex of the nose R portion cutting edge, the width gradually decreases from the apex of the nose R portion cutting edge to the position at which the nose R portion cutting edge is connected to the linear cutting edge, and on the other side with respect to the boundary which is the apex of the nose R portion cutting edge, the width is constant or gradually increases to the position connected to the linear cutting edge. 6 . The cutting insert according to claim 5 , wherein the cutting tool material is integrally held with the corner portion, involved in cutting, of the base metal, the base metal has a chamfer portion with unequal width, in which a width gradually increases as being away from the corner portion, the chamfer portion is connected to the negative land on the other side in which the width is constant, and let M 1 be a chamfer width in a normal direction to a lateral face of the base metal in plan view at an end of an opposite side of the chamfer portion with respect to the corner portion, and M 2 be a chamfer width in a normal direction to the lateral face in plan view at an end of the corner portion, then the ratio of the M 1 to the M 2 is set to 1.2 or greater and 100 or less. 7 . The cutting insert according to claim 1 , wherein the cutting edge has a round honing face with a width of 0.03 mm to 0.3 mm. 8 . The cutting insert according to claim 1 , further comprising a coating layer composed of a carbide, a nitride, a boride, or an oxide of Ti, Al, Si, Cr, and Zr. 9 . A method of manufacturing the cutting insert according to claim 1 , the method comprising the steps of: clamping and holding a blank material by a chuck of a grinder in a thickness direction, the blank material including a surface involved in cutting, for which a cutting tool material composed of one of cBN based sintered body, ceramics, and cermet is used, the chuck having controllable position and posture; pressing the cutting tool material against an end face of a grinding wheel in rotation of the grinder in this state; grinding the cutting tool material; and forming the flank face, the negative land with unequal width, and the rake face, wherein the grinding of the rake face is performed on the cutting tool material which is substantially treated as an object to be ground, and a grinding surface of the grinding wheel is inclined with respect to an upper surface of the cutting tool material in a direction in which a positive rake angle is given, and the steps are performed by changing the posture and position of the chuck without releasing the holding of the blank material by the chuck. 10 . The method of manufacturing a cutting insert according to claim 9 , wherein the grinding of the rake face is performed after the flank face and a supplementary negative land with a constant width are ground, and at least one side of the supplementary negative land with respect to the boundary which is the apex of the nose R portion cutting edge is changed to the negative land with unequal width by the grinding of the rake face. 11 . The method of manufacturing a cutting insert according to claim 9 , wherein when the flank face and the rake face are ground, polish streaks are formed on the flank face in a direction perpendicular to a thickness direction of an insert, and polish streaks are formed on the rake face in a direction perpendicular to a bisector of the corner portion.