Rotating chuck with coolant groove arrangement

What is claimed is: 1. A rotating chuck comprising: a front chuck end; and a shank-receiving bore opening out to, and extending rearwardly from, the front chuck end; the shank-receiving bore defined by a circumferentially extending bore surface and: having a bore axis extending through the center of the shank-receiving bore and defining forward and rearward directions; and comprising a front bore end proximate to the front chuck end of the chuck and a rear bore end rearward of the front bore end; the bore surface comprising: one or more shank abutment sub-surfaces defining a bore diameter; and a groove arrangement recessed in the shank-receiving bore further than the one or more shank abutment sub-surfaces from the central bore axis; the groove arrangement defining a flow path in fluid communication with the front and rear bore ends and comprising: an annular inlet groove at the rear bore end; one or more slanted groove portions opening out to, and being inwardly inclined towards, the front chuck end; and one or more intermediary grooves connecting the annular inlet groove and the one or more slanted groove portions, the one or more intermediary grooves including one or more longitudinal groove portions extending parallel with the central bore axis; wherein: the one or more intermediary grooves further comprises an annular exit groove at the front bore end in fluid communication with the slanted groove portions; the annular exit groove extends radially outward of the slanted groove portions and the longitudinal groove portions; and the shank-receiving bore, including the entire aforementioned groove arrangement, is formed on a portion of the rotating chuck having one-piece unitary construction. 2. The rotating chuck according to claim 1 , wherein the groove arrangement comprises more slanted groove portions than longitudinal groove portions. 3. The rotating chuck according to claim 1 , wherein, perpendicular to the bore axis, each longitudinal groove portion has constant cross sectional area. 4. The rotating chuck according to claim 1 , wherein: the annular exit groove is also in fluid communication with the one or more longitudinal groove portions. 5. The rotating chuck according to claim 4 , wherein the groove arrangement comprises more slanted groove portions than longitudinal groove portions. 6. A rotating chuck comprising: a front chuck end; and a shank-receiving bore opening out to, and extending rearwardly from, the front chuck end; the shank-receiving bore defined by a circumferentially extending bore surface and: having a bore axis extending through the center of the shank-receiving bore and defining forward and rearward directions; and comprising a front bore end proximate to the front chuck end of the chuck and a rear bore end rearward of the front bore end; the bore surface comprising: one or more shank abutment sub-surfaces defining a bore diameter; and a groove arrangement recessed in the shank-receiving bore further than the one or more shank abutment sub-surfaces from the central bore axis; the groove arrangement defining a flow path in fluid communication with the front and rear bore ends and comprising: an annular inlet groove at the rear bore end; one or more slanted groove portions opening out to, and being inwardly inclined towards, the front chuck end; and one or more intermediary grooves connecting the annular inlet groove and the one or more slanted groove portions; wherein the shank-receiving bore, including the groove arrangement, is formed on a portion of the rotating chuck having one-piece unitary construction; and at the front chuck end, at least one of the slanted groove portions has a central cross sectional area with a maximum radial dimension and at least one extremity cross sectional area adjacent to the central cross sectional area which decreases in cross sectional area with increasing distance from the central cross sectional area. 7. The rotating chuck according to claim 6 , wherein the one or more intermediary grooves further comprises an annular exit groove at the front bore end in fluid communication with the slanted groove portions. 8. A rotating chuck comprising: a front chuck end; and a shank-receiving bore opening out to, and extending rearwardly from, the front chuck end; the shank-receiving bore defined by a circumferentially extending bore surface and: having a bore axis extending through the center of the shank-receiving bore and defining forward and rearward directions; and comprising a front bore end proximate to the front chuck end of the chuck and a rear bore end rearward of the front bore end; the bore surface comprising: one or more shank abutment sub-surfaces defining a bore diameter; and a groove arrangement recessed in the shank-receiving bore further than the one or more shank abutment sub-surfaces from the central bore axis; the groove arrangement defining a flow path in fluid communication with the front and rear bore ends and comprising: an annular inlet groove at the rear bore end; one or more slanted groove portions opening out to, and being inwardly inclined towards, the front chuck end; and one or more intermediary grooves connecting the annular inlet groove and the one or more slanted groove portions; wherein the one or more intermediary grooves includes an annular exit groove at the front bore end in fluid communication with the slanted groove portions, the annular exit groove extending radially outward of the slanted groove portions, and the shank-receiving bore, including the entire aforementioned groove arrangement, is formed on a portion of the rotating chuck having one-piece unitary construction. 9. The rotating chuck according to claim 8 , wherein the one or more slanted groove portions are each inclined at an inclination angle α relative to the forward direction, the inclination angle α being within the range: 2°≦α≦20°. 10. The rotating chuck according to claim 9 , wherein the inclination angle α is within the range: 4°≦α≦12°. 11. The rotating chuck according to claim 8 , wherein the one or more slanted groove portions is a plurality of slanted groove portions; and the inclination angle α of each of the slanted groove portions is the same. 12. The rotating chuck according to claim 8 , wherein, perpendicular to the bore axis, each slanted groove portion has decreasing cross sectional area with increasing proximity to the front chuck end. 13. The rotating chuck according to claim 8 , wherein, in an end view of the front chuck end, at least one slanted groove portion has a crescent shape. 14. The rotating chuck according to claim 8 , wherein: at the front chuck end, at least one of the slanted groove portions has a central cross sectional area with a maximum radial dimension and at least one extremity cross sectional area adjacent to the central cross sectional area which decreases in cross sectional area with increasing distance from the central cross sectional area. 15. The chuck according to claim 8 , wherein, in an end view of the front chuck end, a maximum radial dimension D MR of at least one of the slanted groove portions is within a range fulfilling the condition: 0.1 mm≦D MR ≦0.9 mm. 16. The chuck according to claim 15 , wherein the maximum radial dimension D MR of the at least one slanted groove portion is within a range fulfilling the condition: 0.1 mm≦D MR ≦0.5 mm. 17. The chuck according to claim 8 , wherein, in an end view of the front chuck end, a maximum radial dimension D MR of each slanted groove portion of the one or more