System and method for preparing textiles with volumized tows for facilitating densification

The invention claimed is: 1. A textile fabrication system comprising: a supply of a fiber bundle, wherein the fiber bundle comprises at least one of a fiber entering a carbon/carbon or a ceramic composite; an air jet device coupled between the supply of the fiber bundle and a lay down location, wherein the air jet device is configured to alter at least one of a fiber volume or an areal weight of the fiber bundle, wherein the air jet device is configured to form a length of volumized fiber bundle, wherein a textile is fabricated from the length of volumized fiber bundle via a fabrication process at the lay down location, wherein the fabrication process comprises at least one of a fabric weaving loom, a multi-axial warp knitting apparatus, or a positive delivery fiber placement fabrication process; a first moveable positive fiber bundle delivery mechanism coupled between the air jet device and the supply of the fiber bundle; and a second moveable positive fiber bundle delivery mechanism coupled between the air jet device and the lay down location, wherein the first movable positive fiber bundle delivery mechanism is configured to insert the fiber bundle into the air jet device, and the second movable positive fiber bundle delivery mechanism is configured to push the fiber bundle to exit the air jet device, and wherein the fiber bundle is in an overfed state while being manipulated by the air jet device. 2. The textile fabrication system of claim 1 , further comprising an electronic unwinder coupled to the supply of the fiber bundle, wherein the electronic unwinder is configured to interact with the first moveable positive fiber bundle delivery mechanism. 3. The textile fabrication system of claim 2 , further comprising a speed sensor coupled to the first moveable positive fiber bundle delivery mechanism, wherein the sensor is configured to measure a linear speed of the fiber bundle and control operation of the electronic unwinder. 4. The textile fabrication system of claim 1 , further comprising needling the textile. 5. The textile fabrication system of claim 1 , wherein the lay down location comprises at least one of a re-spooling of the fiber bundle, a moving surface for assembling fiber bundles into fabric or a circular loom bed plate turntable. 6. The textile fabrication system of claim 1 , wherein the air jet device is configured to utilize accelerated air to volumize tows within the fiber bundle to increase fiber to fiber spacing and to facilitate densification of fiber reinforced carbon or ceramic composites created from the length of volumized fiber bundle. 7. The textile fabrication system of claim 2 , wherein positive delivery via the first moveable positive fiber bundle delivery mechanism comprises pushing the length of volumized fiber bundle to the lay down location while imparting at least one of little or no tension on the length of volumized fiber bundle. 8. The textile fabrication system of claim 1 , wherein a compressed air feed is coupled to the air jet device. 9. The textile fabrication system of claim 1 , wherein the air jet device comprises at least one air feeding channel oriented at a selected angle in a transport direction of the fiber bundle. 10. The textile fabrication system of claim 6 , wherein the air jet device is configured to apply accelerated air to a first side and a second side of the fiber bundle. 11. A method of fabricating a textile comprising: transporting a fiber bundle from a fiber bundle supply to a lay down location, wherein the fiber bundle comprises at least one of a fiber entering a carbon/carbon or a ceramic composite; altering at least one of a fiber volume or an areal weight of the fiber bundle via an air jet device coupled between the fiber bundle supply and the lay down location, imparting an overfed condition on the fiber bundle during the altering via the air jet device by a first moveable positive fiber bundle delivery mechanism coupled between the air jet device and the fiber bundle supply inserting the fiber bundle into the air jet device and a second moveable positive fiber bundle delivery mechanism coupled between the air jet device and the lay down location pushing the fiber bundle to exit the air jet device; forming a length of volumized fiber bundle via the altering; and fabricating the textile from the length of volumized fiber bundle via a fabrication process at the lay down location, wherein the fabrication process comprises at least one of a fabric weaving, multi-axial warp knitting, or a positive delivery fiber placement fabrication process. 12. The method of fabricating a textile of claim 11 , further comprising needling the textile. 13. The method of fabricating a textile of claim 11 , wherein the lay down location comprises at least one of a moving surface for assembling fiber bundles into a fabric or a circular loom bed plate turntable. 14. The method of fabricating a textile of claim 11 , further comprising applying accelerated air via the air jet device to the fiber bundle from a first side and a second side of the fiber bundle.