Star-shaped cutting insert for a front and back chamfering rotary milling cutter

What is claimed is: 1. A front and back chamfering rotary milling cutter ( 20 ), having an axis of rotation (A) around which the rotary milling cutter ( 20 ) rotates in a direction of rotation (R), the axis of rotation (A) extending in a forward (D F ) to rearward direction (D R ), the rotary milling cutter ( 20 ) comprising: a cutter body ( 22 ) comprising an insert pocket ( 30 ); and a star-shaped cutting insert ( 32 ) releasably retained in the insert pocket ( 30 ), the cutting insert ( 32 ) comprising: opposing insert top and bottom surfaces ( 42 , 44 ) and an insert peripheral surface ( 46 ) extending therebetween; a centrally located insert axis (C) extending through the insert top and bottom surfaces ( 42 , 44 ); circumferentially alternating outer and inner corner portions ( 50 , 52 ), the inner corner portions ( 52 ) being located closer to the insert axis (C) than the outer corner portions ( 50 ); wherein each outer corner portion ( 50 ) together with an adjacent first inner corner portion ( 52 a ) rotationally forward thereof and an adjacent second inner corner portion ( 52 b ) located rotationally rearward thereof define a cutting portion ( 54 ); each cutting portion ( 54 ) comprising a cutting edge ( 58 ) formed at the intersection of the insert top and peripheral surfaces ( 42 , 46 ); and the cutting edge ( 58 ) comprises: a front chamfering cutting edge ( 58 a ) extending from the outer corner portion ( 50 ) to the first inner corner portion ( 52 a ); a back chamfering cutting edge ( 58 b ) extending from the outer corner portion ( 50 ) to the second inner corner portion ( 52 b ); and a curved non-operative corner edge ( 66 ) extending between the front and back chamfering cutting edges ( 58 a , 58 b ). 2. The rotary milling cutter ( 20 ) according to claim 1 , wherein: the outer and inner corner portions ( 50 , 52 ) are distanced at two different radii, an outer radius (R O ) and an inner radius (R I ), from the insert axis (C), respectively. 3. The rotary milling cutter ( 20 ) according to claim 2 , wherein the cutting insert ( 32 ) exhibits rotational symmetry about the insert axis (C). 4. The rotary milling cutter ( 20 ) according to claim 1 , wherein the cutting insert ( 32 ) is double-sided and each cutting portion ( 54 ) comprises an additional cutting edge ( 58 ) formed at the intersection of the insert bottom and peripheral surfaces ( 44 , 46 ). 5. The rotary milling cutter ( 20 ) according to claim 1 , wherein at least one of the front and back chamfering cutting edges ( 58 a , 58 b ) are straight. 6. The rotary milling cutter ( 20 ) according to claim 1 , wherein the insert pocket ( 30 ) is located at a forward end of the cutter body ( 22 ). 7. The rotary milling cutter ( 20 ) according to claim 1 , wherein a first length (L 1 ) of the non-operative corner edge ( 66 ) is less than 25% of a second length (L 2 ) of either the front or back chamfering cutting edges ( 58 a , 58 b ). 8. The rotary milling cutter ( 20 ) according to claim 1 , wherein: the cutter body ( 22 ) comprises a shank peripheral surface ( 26 ) extending circumferentially around the axis of rotation (A); the front and back chamfering cutting edges ( 58 a , 58 b ) of one of the cutting portions ( 54 ) are disposed radially outwardly with respect to the shank peripheral surface ( 26 ), defining an active cutting portion ( 68 ). 9. The rotary milling cutter ( 20 ) according to claim 8 , wherein the front and back chamfering cutting edges ( 58 a , 58 b ) of the remaining cutting portions ( 54 ) are disposed radially inwardly with respect to the shank peripheral surface ( 26 ), defining a plurality of non-active cutting portions ( 70 ). 10. The rotary milling cutter ( 20 ) according to claim 8 , wherein: in a side view of the rotary milling cutter ( 20 ), a bisector angle (β) is formed with the rearward direction (D R ) of the axis of rotation (A) and a bisector (B) of the outer corner portion ( 50 ) of the active cutting portion ( 68 ); and the bisector angle (β) is in range 70°≤(β)≤110°. 11. The rotary milling cutter ( 20 ) according to claim 10 wherein the bisector angle (β) is exactly 90°. 12. The rotary milling cutter ( 20 ) according to claim 1 , wherein: the cutting insert ( 32 ) comprises exactly N cutting portions ( 50 ); and N is greater or equal to 3 and less than or equal to 9. 13. The rotary milling cutter ( 20 ) according to claim 12 , wherein N is equal to 5. 14. The rotary milling cutter ( 20 ) according to claim 12 , wherein N is an odd number. 15. The rotary milling cutter ( 20 ) according to claim 14 , wherein the rotary milling cutter ( 20 ) comprises exactly one cutting insert ( 32 ). 16. The rotary milling cutter ( 20 ) according to claim 15 , wherein the cutter body ( 22 ) comprises a shank peripheral surface ( 26 ) extending circumferentially around the axis of rotation (A); the shank peripheral surface ( 26 ) has a shank diameter (S); in a side view of the rotary milling cutter ( 20 ), the insert axis (C) is distanced from the axis of rotation (A) by an axis distance (D); and the axis distance (D) is less than 25% of the shank diameter (S). 17. The rotary milling cutter ( 20 ) according to claim 1 , wherein the rotary milling cutter ( 20 ) comprises exactly one cutting insert ( 32 ). 18. The rotary milling cutter ( 20 ) according to claim 17 , wherein the cutter body ( 22 ) comprises a shank peripheral surface ( 26 ) extending circumferentially around the axis of rotation (A); the shank peripheral surface ( 26 ) has a shank diameter (S); in a side view of the rotary milling cutter ( 20 ), the insert axis (C) is distanced from the axis of rotation (A) by an axis distance (D); and the axis distance (D) is less than 25% of the shank diameter (S). 19. The rotary milling cutter ( 20 ) according to claim 18 , wherein the shank peripheral surface ( 26 ) has a shank diameter (S); the outer corner portions ( 50 ) define an imaginary outer circle (OC) having an insert diameter (ID); and the insert diameter (ID) is larger than the shank diameter (S). 20. A double-sided star-shaped cutting insert ( 32 ), comprising opposing insert top and bottom surfaces ( 42 , 44 ) and an insert peripheral surface ( 46 ) extending therebetween; a centrally located insert axis (C) extending through the insert top and bottom surfaces ( 42 , 44 ), the cutting insert ( 32 ) being indexable on each of the insert top and bottom surfaces ( 42 , 44 ) about the insert axis (C); circumferentially alternating outer and inner corner portions ( 50 , 52 ), the inner corner portions ( 52 ) being located closer to the insert axis (C) than the outer corner portions ( 50 ); a plurality of cutting portions ( 54 ), each cutting portion ( 54 ) defined by one of said outer corner portions ( 50 ), an adjacent first inner corner portion ( 52 a ) rotationally forward thereof and an adjacent second inner corner portion ( 52 b ) located rotationally rearward thereof; a median plane (M) passing through the insert peripheral surface ( 46 ) midway between the top and bottom surfaces ( 42 , 44 ); a bisector plane (PS) formed at each cutting portion ( 54 ), each bisector plane (PS) containing the insert axis (C), and bisecting both an associated outer corner portion ( 50 ) and an associated opposite inner corner portion ( 52 ); a median axis (AS) formed at an intersection of each bisector plane (PS) and the median plane (M), each median axis (AS) intersecting