System, method and apparatus for producing a multi-layer, microcapillary film

We claim: 1. A die assembly for producing a film, the die assembly operatively connectable to an extruder having a thermoplastic material passing therethrough, the die assembly comprising: a pair of die plates connectable together to define a manifold receptacle and an elongate outlet therebetween; a manifold positionable in the manifold receptacle between the pair of die plates and defining a plurality of film channels therebetween, the plurality of film channels converging into the elongate outlet, the thermoplastic material extrudable through the plurality of film channels and the elongate outlet to form a multi-layer film; and a plurality of nozzles positionable between the plurality of film channels and having a tip extending into the elongate outlet and to an exit of the elongate outlet, the plurality of nozzles operatively connectable to a source of channel fluid for emitting the channel fluid between layers of the multi-layer film whereby microcapillaries are formed in the multi-layer film. 2. The die assembly of claim 1 , wherein the pair of die plates and the manifold are shaped to define the plurality of film channels such that the thermoplastic material is selectively distributed therethrough whereby a desired flow of the thermoplastic material passes through the elongate outlet. 3. The die assembly of claim 1 , wherein the thermoplastic material comprises at least one matrix thermoplastic material extrudable through the plurality of film channels. 4. The die assembly of claim 1 , further comprising at least one thermoplastic material inlet in fluid communication with the plurality of film channels. 5. The die assembly of claim 1 , wherein the manifold comprises a manifold intake and a manifold outtake. 6. The die assembly of claim 5 , wherein the plurality of nozzles are positionable about an exit end of the manifold outtake. 7. The die assembly of claim 1 , wherein the manifold has a channel fluid passage in fluid communication with the plurality of nozzles for passing the channel fluid therethrough. 8. The die assembly of claim 1 , wherein the plurality of film channels has one of a same shape and a different shape. 9. The die assembly of claim 1 , wherein the elongate outlet has a width of at least 3 inches (7.62 cm). 10. The die assembly of claim 1 , further comprising at least one plate about an outer surface thereof. 11. An extruder for producing a thermoplastic material film, comprising: a housing having an inlet for receiving a thermoplastic material; a driver positionable in the housing and advancing the thermoplastic material through the housing; a die assembly operatively connectable to an elongate outlet of the housing, the die assembly comprising: a pair of die plates; a manifold positionable between the pair of die plates and defining a plurality of film channels therebetween, the plurality of film channels converging into an elongate outlet, the thermoplastic material extrudable through the plurality of film channels and the elongate outlet to form a multi-layer film; and a plurality of nozzles positionable between the plurality of film channels, and having a tip extending into the elongate outlet and to an exit of the elongate outlet, the plurality of nozzles operatively connectable to a source of channel fluid for emitting the channel fluid between layers of the multi-layer film whereby microcapillaries are formed in the multi-layer film. 12. The extruder of claim 11 , wherein the channel fluid comprises one of air, gas, thermoplastic material and combinations thereof. 13. The extruder of claim 11 , further comprising a hopper for collecting and distributing the thermoplastic material through the inlet. 14. The extruder of claim 11 , wherein the driver is at least one screw rotationally positionable in the housing. 15. The die assembly of claim 1 , further comprising heater plates positioned about the die plates. 16. The die assembly of claim 1 , further comprising support plates about the die plates. 17. The die assembly of claim 1 , wherein the die plates have different inner surfaces defining asymmetric portions of the manifold receptacle. 18. The die assembly of claim 1 , wherein the source of the channel fluid defines a fluid path for passing one of air, gas, fluid, thermoplastic material, and combinations thereof.