Rotary cutting tool and reversible cutting insert having variable-width minor relief surfaces therefor

What is claimed is: 1. A reversible cutting insert ( 20 ), comprising: opposing first and second end surfaces ( 22 ) interconnected by a continuous peripheral surface ( 24 ), with a median plane (M) located between the first and second end surfaces ( 22 ) and intersecting the peripheral surface ( 24 ) to form an insert boundary line (Lb), and an insert axis (A 1 ) perpendicular to the median plane (M) about which the cutting insert ( 20 ) is indexable, the peripheral surface ( 24 ) including three side surfaces ( 26 ) alternating with three corner surfaces ( 28 ), the side and corner surfaces ( 26 , 28 ) intersecting both the first and second end surfaces ( 22 ) at side and corner edges ( 32 , 34 ), respectively, with each side edge ( 32 ) having a major cutting edge ( 36 ), and each corner edge ( 34 ) having a corner and minor cutting edge ( 38 , 40 ), and each corner surface ( 28 ) having two minor relief surfaces ( 48 ), each minor relief surface ( 48 ) extending away from its associated minor cutting edge ( 40 ), wherein a first imaginary straight line (L 1 ) extending perpendicular to the median plane (M) and intersecting any one of the corner cutting edges ( 38 ) at any point along its length, passes through the median plane (M) inside the insert boundary line (Lb), and wherein: each minor cutting edge ( 40 ) has a projected minor cutting length (L M ), in an end view of the cutting insert ( 20 ) along the insert axis (A 1 ), each minor relief surface ( 48 ) has a minor relief width (W) between two lateral boundary points of the minor relief surface ( 48 ) contained in a horizontal plane (PH) perpendicular to the insert axis (A 1 ), the minor relief width (W) varying with an offset distance (D O ) between the horizontal plane (PH) and the median plane (M), and each projected minor cutting length (L M ) is greater than the maximum minor relief width (W MAX ) of its associated minor relief surface ( 48 ). 2. The cutting insert ( 20 ) according to claim 1 , wherein the minor relief width (W) increases as the offset distance (D O ) increases. 3. The cutting insert ( 20 ) according to claim 1 , wherein the minimum minor relief width (W MIN ) of each minor relief surface ( 48 ) occurs at an offset distance (D O ) having a value equal to zero. 4. The cutting insert ( 20 ) according to claim 1 , wherein each corner cutting edge ( 38 ) extends between first and second end points (E 1 , E 2 ), and wherein each major and minor cutting edge ( 36 , 40 ) slopes away from the first and second end points (E 1 , E 2 ), respectively, of an associated corner cutting edge ( 38 ), towards the median plane (M). 5. The cutting insert ( 20 ) according to claim 4 , wherein each major cutting edge ( 36 ) slopes away from the first end point (E 1 ) towards the median plane (M) along its entire length. 6. The cutting insert ( 20 ) according to claim 5 , wherein each side surface ( 26 ) is bisected by a second vertical plane (PV 2 ) containing the insert axis (A 1 ), and wherein each major cutting edge ( 36 ) intersects its associated second vertical plane (PV 2 ). 7. The cutting insert ( 20 ) according to claim 4 , wherein each minor cutting edge ( 40 ) slopes away from the second end point (E 2 ) towards the median plane (M) along its entire length. 8. The cutting insert ( 20 ) according to claim 1 , wherein each corner cutting edge ( 38 ) has a projected corner cutting length (L C ), in an end view of the cutting insert ( 20 ) along the insert axis (A 1 ), and wherein the projected minor cutting length (L M ) of each minor cutting edge ( 40 ) is greater than the projected corner cutting length (L C ) of its associated corner cutting edge ( 38 ). 9. The cutting insert ( 20 ) according to claim 1 , wherein a second imaginary straight line (L 2 ) extending perpendicular to the median plane (M) and intersecting any one of the minor cutting edges ( 40 ) at any point along its length, passes through the median plane (M) inside the insert boundary line (Lb). 10. The cutting insert ( 20 ) according to claim 1 , wherein an imaginary straight relief line (L R ) coplanar with the insert axis (A 1 ) and tangential to any point on or coincident with each minor relief surface ( 48 ) converges towards the insert axis (A 1 ) in the same direction that its associated end surface ( 22 ) faces. 11. The cutting insert ( 20 ) according to claim 1 , wherein a third imaginary straight line (L 3 ) extending perpendicular to the median plane (M) and intersecting any one of the major cutting edges ( 36 ) at any point along its length, passes through the median plane (M) inside the insert boundary line (Lb). 12. The cutting insert ( 20 ) according to claim 1 , wherein each corner cutting edge ( 38 ) is curved and each minor cutting edge ( 40 ) is straight, in an end view of the cutting insert ( 20 ) along the insert axis (A 1 ). 13. The cutting insert ( 20 ) according to claim 1 , wherein each minor relief surface ( 48 ) is planar. 14. The cutting insert ( 20 ) according to claim 1 , wherein the peripheral surface ( 24 ) has exactly three side surfaces ( 26 ) alternating with exactly three corner surfaces ( 28 ), and wherein the cutting insert ( 20 ) exhibits three-fold rotational symmetry about the insert axis (A 1 ). 15. The cutting insert ( 20 ) according to claim 1 , wherein each side surface ( 26 ) has a planar side median region ( 46 ) perpendicular to the median plane (M), wherein each corner surface ( 28 ) is bisected by a first vertical plane (PV 1 ) containing the insert axis (A 1 ), and wherein each side median region ( 46 ) forms an acute first angle (α 1 ) with the first vertical plane (PV 1 ) of an adjacent corner surface ( 28 ), and the first angle (α 1 ) has a value of 30°. 16. The cutting insert ( 20 ) according to claim 15 , wherein the two corner cutting edges ( 38 ) associated with each corner surface ( 28 ) are each entirely located on opposites sides of the associated first vertical plane (PV 1 ). 17. The cutting insert ( 20 ) according to claim 1 , wherein the peripheral surface ( 24 ) is unground. 18. The cutting insert ( 20 ) according to claim 1 , wherein each corner surface ( 28 ) has two partially conical shaped corner relief surfaces ( 44 ), each corner relief surface ( 44 ) extending away from its associated corner cutting edge ( 38 ). 19. A cutting tool ( 52 ) rotatable about a tool axis (A 2 ), comprising: a cutting body ( 54 ); and at least one reversible cutting insert ( 20 ) in accordance with claim 1 removably secured in an insert receiving pocket ( 56 ) of the cutting body ( 54 ). 20. The cutting tool ( 52 ) according to claim 19 , wherein each cutting insert ( 20 ) is configured and seated so that the operative major, corner and minor cutting edges ( 36 , 38 , 40 ) are capable of performing a square shoulder milling operation in a workpiece.