Sealed collet

What is claimed is: 1. A collet having a rotational axis, said collet comprising: an axially rearward end and an axially forward end; a nose portion; a body portion having an outer surface formed at a taper angle with respect to the rotational axis for engaging a chuck of a tool holder, and an inner surface for engaging a shank of a tool; a plurality of longitudinally extending slots extending from the inner surface to the outer surface; and a plurality of coolant channels disposed within the collet between the plurality of longitudinally extending slots and extending entirely from the axially rearward end to the axially forward end of the collet, wherein the collet defines a shank engagement zone extending from the axially forward end, and wherein the collet further defines a tool holder engagement zone extending from the axially rearward end, and wherein the shank engagement zone overlaps the tool holder engagement zone to define an intermediary zone, and wherein the plurality of longitudinally extending slots comprises at least one first slot extending a first length from the axial forward end to within the intermediary zone, at least one second slot extending a second length from the axial rearward end to at least the tool holder engagement zone such that the at least one second slot does not intersect the at least one first slot, and at least one third slot extending a third length from within the tool holder engagement zone to within the intermediary zone such that the at least one third slot circumferentially overlaps the at least one first slot and the at least one second slot, and wherein the first length, the second length, and the third length are less than a total length of the collet; and wherein the at least one first slot and the at least one second slot lie in the same axially-extending plane. 2. The collet of claim 1 , wherein the plurality of longitudinally extending slots are substantially parallel to the rotational axis, and wherein the coolant channels are substantially parallel to the rotational axis. 3. The collet of claim 1 , wherein at least one of the coolant channels have a feeder portion disposed helically with respect to the rotational axis and a nozzle portion that is substantially straight with respect to the rotational axis. 4. The collet of claim 3 , wherein the nozzle portion is axially forward of the feeder portion. 5. The collet of claim 1 , wherein the coolantchannels have a substantially circular cross-sectional shape. 6. The collet of claim 1 , wherein the coolant channels have a noncircular cross-sectional shape. 7. The collet of claim 1 , wherein at least one of the coolant channels comprises a nozzle portion, a header portion and a plurality of feeder portions in fluid communication with the nozzle portion and the header portion, and wherein the feeder portions are axially rearward of the nozzle portion and the header portion. 8. The collet of claim 7 , wherein the nozzle portion has a noncircular cross-sectional shape. 9. The collet of claim 7 , wherein each of the feeder portions have a substantially circular cross-sectional shape. 10. A tool assembly, comprising: a tool holder having a chuck with a recess; and a collet at least partially disposed in the recess, the collet having a rotational axis, said collet comprising: an axially rearward end and an axially forward end; a nose portion; a body portion having an outer surface formed at a taper angle with respect to the rotational axis for engaging a chuck a tool holder, and an inner surface for engaging a shank of a tool; a plurality of longitudinally extending slots extending from the inner surface to the outer surface; and a plurality of coolant channels disposed within the collet between the plurality of longitudinally extending slots and extending entirely from the axially rearward end to the axially forward end of the collet, wherein the collet defines a shank engagement zone extending from the axially forward end, and wherein the collet further defines a tool holder engagement zone extending from the axially rearward end, and wherein the shank engagement zone overlaps the tool holder engagement zone to define an intermediary zone, wherein the plurality of longitudinally extending slots comprises at least one first slot extending a first length from the axial forward end to within the intermediary zone, at least one second slot extending a second length from the axial rearward end to at least the tool holder engagement zone such that the at least one second slot does not intersect the at least one first slot, and at least one third slot extending a third length from within the tool holder engagement zone to within the intermediary zone such that the at least one third slot circumferentially overlaps the at least one first slot and the at least one second slot, and wherein the first length, the second length, and the third length are less than a total length of the collet; and wherein the at least one first slot and the at least one second slot lie in the same axially extending plane. 11. The tool assembly of claim 10 , wherein the plurality of longitudinally extending slots are substantially parallel to the rotational axis, and wherein the coolant channels are substantially parallel to the rotational axis. 12. The tool assembly of claim 10 , wherein at least one of the coolant channels have a feeder portion disposed helically with respect to the rotational axis and a nozzle portion that is substantially straight with respect to the rotational axis. 13. The tool assembly of claim 12 , wherein the nozzle portion is axially forward of the feeder portion. 14. The tool assembly of claim 10 , wherein the coolant channels have a substantially circular cross-sectional shape. 15. The tool assembly of claim 10 , wherein the coolant channels have a non-circular cross-sectional shape. 16. The tool assembly of claim 10 , wherein at least one of the coolant channels comprises a nozzle portion, a header portion and a plurality of feeder portions in fluid communication with the nozzle portion and the header portion, and wherein the feeder portions are axially rearward of the nozzle portion and the header portion. 17. The tool assembly of claim 16 , wherein the nozzle portion has a non-circular cross-sectional shape. 18. The tool assembly of claim 16 , wherein each of the feeder portions have a substantially circular cross-sectional shape.