Cutting insert and cutting tool

What is claimed is: 1. An indexable reversible cutting insert ( 20 , 130 ), comprising: a first polygonal shaped end surface ( 22 , 132 ) having a number N vertexes and a second polygonal shaped end surface ( 24 , 134 ), identical and parallel to the first end surface ( 22 , 132 ), the second end surface ( 24 , 134 ) being rotationally offset relative to the first end surface ( 22 , 132 ); a peripheral side surface ( 26 , 136 ) extending circumferentially between the end surfaces ( 22 , 24 , 132 , 134 ), the peripheral side surface ( 26 , 136 ) including a plurality of peripheral side portions ( 30 , 32 , 140 , 142 ); two continuous circumferential cutting edges ( 46 , 48 , 135 , 137 ), each circumferential cutting edge ( 46 , 48 , 135 , 137 ) formed along the entire intersection of each end surface ( 22 , 24 , 132 , 134 ) with the peripheral side surface ( 26 , 136 ), each circumferential cutting edge ( 46 , 48 , 135 , 137 ) including a plurality of identical cutting edge sections ( 50 , 170 ), each cutting edge section ( 50 , 170 ) extending between two vertexes of the polygonal shape of the respective end surface ( 22 , 24 , 132 , 134 ), each cutting edge section ( 50 , 170 ) including a first cutting edge ( 52 , 58 , 161 , 165 ) and a second cutting edge ( 60 , 74 , 163 , 167 ); a central through bore ( 62 ) extending between, and opening out to the end surfaces ( 22 , 24 , 132 , 134 ); and two insert abutment surfaces ( 64 ), each insert abutment surface ( 64 ) located on a respective end surface ( 22 , 24 , 132 , 134 ), wherein: the cutting insert has a maximum of N/2-way indexability on each end surface ( 22 , 132 ); each of the peripheral side portions ( 30 , 32 , 140 , 142 ) includes a first sub-face ( 66 , 70 , 156 , 160 ) and a second sub-face ( 68 , 72 , 158 , 162 ) non-coplanar to the first sub-face ( 66 , 70 , 156 , 160 ), the first and second sub-faces define at least one intermediate plane (M, P 3 , P 4 ) located between the end surfaces ( 22 , 24 , 132 , 134 ) and parallel to the end surfaces ( 22 , 24 , 132 , 134 ), the first and second sub-faces intersecting in one of the at least one intermediate plane (M, P 3 , P 4 ), and wherein in each peripheral side portion ( 30 , 32 , 140 , 142 ): each first sub-face ( 66 , 70 , 156 , 160 ) extends between a respective one of the first cutting edges ( 52 , 58 , 161 , 165 ) and one of the at least one intermediate plane (M, P 3 , P 4 ), forming a first insert internal angle (α, φ) with an end plane (P 1 , P 2 , S 1 , S 2 ) defined by one of the end surfaces ( 22 , 24 , 132 , 134 ), each second sub-face ( 68 , 72 , 158 , 162 ) extends between a respective one of the second cutting edges ( 60 , 74 , 163 , 167 ) and one of the at least one intermediate plane (M, P 3 , P 4 ), forming a second insert internal angle (θ, ψ) with another end plane (P 1 , P 2 , S 1 , S 2 ) defined by one of the end surfaces ( 22 , 24 , 132 , 134 ), the second insert internal angle (θ, ψ) being an acute angle, and different from the first insert internal angle (α, φ). 2. The cutting insert ( 20 ) of claim 1 , wherein the sub-faces ( 66 , 68 , 70 , 72 ) of adjacent peripheral side portions ( 30 , 32 ) intersect in different spaced apart intermediate planes (P 3 , P 4 ), and wherein each of the spaced apart intermediate planes (P 3 , P 4 ) is distanced by a similar first distance (d 1 ) from its closest end plane (P 1 , P 2 ). 3. The cutting insert ( 20 ) of claim 2 , wherein the two end surfaces ( 22 , 24 ) are distanced by a thickness distance H, and wherein the first distance (d 1 ) is smaller than half the thickness distance H. 4. The cutting insert ( 130 ) of claim 1 , wherein the sub-faces ( 156 , 158 , 160 , 162 ) of each peripheral side portion ( 140 , 142 ) intersect in a single median plane (M), equidistant from the end planes (S 1 , S 2 ). 5. The cutting insert ( 20 , 130 ) of claim 1 , wherein each circumferential cutting edge ( 46 , 48 , 135 , 137 ) includes N first cutting edges ( 52 , 58 , 161 , 165 ) and N second cutting edges ( 60 , 74 , 163 , 167 ), N being a positive integer greater than 2. 6. The cutting insert ( 20 , 130 ) of claim 1 , wherein the polygonal shape of each of the end surfaces ( 22 , 24 , 132 , 134 ) is an uneven octagonal shape. 7. The cutting insert ( 20 , 130 ) of claim 1 , wherein the first insert internal angle (α, φ) is in the range of 85° to 100°. 8. The cutting insert ( 20 , 130 ) of claim 1 , wherein the first insert internal angle (α, φ) is a 95° angle. 9. The cutting insert ( 20 , 130 ) of claim 1 , wherein the second insert internal angle (θ, ψ) is in the range of 65° to 83°. 10. The cutting insert ( 20 , 130 ) of claim 1 , wherein the second insert internal angle (θ, ψ) is a 77° angle. 11. The cutting insert ( 20 , 130 ) of claim 1 , wherein in each cutting edge section ( 50 , 170 ), the first cutting edge ( 52 , 58 , 161 , 165 ) has a first length A and the second cutting edge ( 60 , 74 , 163 , 167 ) has a second length W, and wherein the first length A is larger than the second length W. 12. The cutting insert ( 20 , 130 ) of claim 11 , wherein the first length A and the second length W define a ratio W/A, and wherein the ratio W/A is in the range of 1/10≦W/A≦2/3. 13. The cutting insert ( 20 , 130 ) of claim 12 , wherein: W/A=2/3. 14. The cutting insert ( 20 , 130 ) of claim 1 , wherein in each end surface ( 22 , 24 , 132 , 134 ) the insert abutment surface ( 64 ) substantially surrounds an opening of the through bore ( 62 ) on the respective end surface ( 22 , 24 , 132 , 134 ), and extends towards each of the second cutting edges ( 60 , 74 , 163 , 167 ) of the respective end surface ( 22 , 24 , 132 , 134 ). 15. A cutting tool ( 100 ) having a longitudinal axis of rotation (B 1 ), the cutting tool ( 100 ) comprising: a tool body ( 110 ) having at least one insert pocket ( 106 ) formed in a front end ( 102 ) of the tool body ( 110 ); and a cutting insert ( 20 , 130 ) according to claim 1 retained in said at least one insert pocket ( 106 ). 16. The cutting tool ( 100 ) of claim 15 , wherein: said at least one insert pocket ( 106 ) comprises: a pocket abutment surface ( 112 ) defining an abutment plane (P 5 ); a threaded bore ( 120 ) opening out to the pocket abutment surface ( 112 ); two pocket receiving sidewalls ( 114 1 , 114 2 ) extending from the abutment plane (P 5 ), each of the pocket receiving sidewalls ( 114 1 , 114 2 ) including: a first planar sidewall section ( 116 1 , 116 2 ) forming an insert receiving external angle (β) with a plane (P 6 ) intersecting the first planar sidewall section ( 116 1 , 116 2 ) and is parallel to the abutment plane (P 5 ); and a second planar sidewall section ( 118 1 , 118 2 ) intersecting with the respective first planar sidewall section ( 116 1 , 116 2 ), and extending towards the abutment plane (P 5 ) to form an acute pocket external angle (φ) therewith; one of the two insert abutment surfaces ( 64 ) abuts the pocket abutment surface ( 112 ); the first sub-faces ( 66 , 70 , 156 , 160 ) of two peripheral side portions ( 30 , 32 , 140 , 142 ) of the cutting insert ( 20 , 130 ) abut respective ones of the first sidewall sections ( 116 1 , 116 2 ), in a dovetail manner; and a clamping bolt ( 108 ) passes through the central through bore ( 62 ) of the cutting insert ( 20 , 130 ) and threadingly engages the threaded bore ( 120 ) of the insert pocket ( 106 ). 17. The cu