Apparatus and method for cooling a cutting tool using super critical carbon dioxide

What is claimed is: 1. A toolholder, comprising: a pocket assembly having a nest section and a clamp section; an inverted nest mounted in the nest section, the inverted nest including an insert-receiving pocket for accommodating a cutting insert mounted therein; and a clamping wedge mounted in the clamp section in such a way that the cutting insert engages the clamping wedge, wherein the inverted nest includes one or more coolant grooves that cooperate with the cutting insert for directing super critical carbon dioxide to a cutting tool/workpiece interface. 2. The toolholder according to claim 1 , wherein the insert-receiving pocket of the inverted nest includes a pair of side walls and a top wall to provide three-point contact between the cutting insert and the insert-receiving pocket when the cutting insert is mounted therein. 3. The toolholder according to claim 1 , wherein the one or more coolant grooves are formed in a bottom surface of the inverted nest and cooperate with a top surface of the cutting insert when the cutting insert is mounted in the insert-receiving pocket of the inverted nest. 4. The toolholder according to claim 1 , wherein the inverted nest further comprises an internal coolant passage extending from a coolant inlet port to a header in a forward nose portion of the inverted nest. 5. The toolholder according to claim 1 , wherein a small distance exists between cutting edges of the cutting insert and side surfaces and the nose portion of the inverted nest for enabling coolant that exits the inverted nest to be directed to an underside of chip flow and aid in the evacuation of chips from the cutting insert/workpiece interface during a machining operation. 6. The toolholder according to claim 1 , wherein the one or more grooves cooperate with the cutting insert so as to form an enclosed coolant channel therebetween. 7. The toolholder according to claim 6 , wherein the enclosed coolant passage formed has an effective diameter of between about 0.006 in (0.152 mm) to about 0.010 in (0.254 mm). 8. The toolholder according to claim 1 , wherein the nest section has a pair of side walls and a bottom wall. 9. The toolholder according to claim 8 , wherein the nest section of the pocket assembly further comprises a corner relief formed between the side walls to provide clearance for the inverted nest when mounted therein. 10. The toolholder according to claim 1 , wherein the clamp section further comprises a rear wall and a bottom wall for supporting the clamping wedge when mounted therein. 11. The toolholder according to claim 10 , wherein the clamp section of the pocket assembly further comprises a radius formed between the rear wall and the bottom wall to provide clearance for the clamping wedge when mounted therein. 12. The toolholder according to claim 1 , wherein the supercritical carbon dioxide is delivered to the cutting insert/workpiece interface at a temperature of about −78 degrees F. and a pressure of between about 1450 psi to about 2100 psi. 13. An inverted nest for a toolholder, comprising: a top surface, a bottom surface opposite the top surface and a plurality of side surfaces; and a forward nose portion with an insert-receiving pocket for accommodating a cutting insert mounted therein, the insert-receiving pocket including a pair of side walls and a top wall to provide three-point contact between the cutting insert and the insert-receiving pocket when the cutting insert is mounted therein, wherein the top wall of the insert-receiving pocket of the inverted nest includes one or more coolant grooves that cooperate with the cutting insert for directing super critical carbon dioxide to a cutting tool/workpiece interface. 14. The inverted nest according to claim 13 , wherein the side surfaces of the forward nose portion are formed at an angle with respect to a longitudinal axis of the inverted nest. 15. The inverted nest according to claim 13 , wherein the inverted nest further comprises a side faceted surface at an intersection of two of the side surfaces, a rearward faceted surface at an intersection of two of the side surfaces and a side faceted surface at the intersection of two of the side surface. 16. A method for directing super critical carbon dioxide to a cutting insert/workpiece interface of a toolholder, the method comprising the step of: mounting an inverted nest in a nest section of a pocket assembly of a toolholder, the inverted nest including an insert-receiving pocket for accommodating a cutting insert mounted therein; and; mounting a clamping wedge in a clamp section of the pocket assembly of the toolholder in such a way that the cutting insert engages the clamping wedge, wherein the inverted nest includes one or more coolant grooves that cooperate with the cutting insert for directing super critical carbon dioxide to a cutting tool/workpiece interface. 17. The method according to claim 16 , wherein the one or more coolant grooves are formed in a top wall of the insert-receiving pocket of the inverted nest and cooperate with a top surface of the cutting insert when the cutting insert is mounted in the insert-receiving pocket of the inverted nest.