Conformable tooling systems and methods for complex contour composite preforms

The invention claimed is: 1. A preform tooling arrangement, comprising: a base plate comprising a male die surface; a stripper plate comprising a female die surface, an outer surface, a first wall, and a second wall oriented at a non-parallel angle with respect to the first wall, the stripper plate is moveable with respect to the base plate; a first plurality of perforations disposed in the base plate; a second plurality of perforations disposed in the stripper plate, the second plurality of perforations includes a plurality of first wall perforations extending through the first wall and a plurality of second wall perforations extending through the second wall; and at least one textile needle movable with respect to the base plate and the stripper plate; wherein the preform tooling arrangement is configured to receive a fibrous preform between the male die surface and the female die surface, and each perforation of at least one of the first plurality of perforations or the second plurality of perforations is configured to receive the at least one textile needle for needling of the fibrous preform while the fibrous preform is secured in compression between the base plate and the stripper plate; and at least one of the first plurality of perforations or the second plurality of perforations comprises: a first zone with a first perforation density; and a second zone with a second perforation density, the first perforation density is higher than the second perforation density, and the perforations in the first zone and the second zone are configured to receive the textile needle. 2. The preform tooling arrangement of claim 1 , wherein: the first plurality of perforations extend from the male die surface to a recess surface in the base plate; and the second plurality of perforations extend from the female die surface to the outer surface in the stripper plate. 3. The preform tooling arrangement of claim 2 , further comprising a support structure, wherein the base plate is configured to receive the support structure against the recess surface. 4. The preform tooling arrangement of claim 1 , wherein at least one of: the base plate comprises a plurality of base plate sub-components that are configured together to define the male die surface; or the stripper plate comprises a plurality of stripper plate sub-components that are configured together to define the female die surface. 5. The preform tooling arrangement of claim 4 , wherein the plurality of stripper plate sub-components includes a first half of the stripper plate and a second half of the stripper plate, the first half is moveable with respect to the second half. 6. The preform tooling arrangement of claim 5 , wherein the first half comprises a first plurality of teeth and the second half comprises a second plurality of teeth configured to interlock with the first plurality of teeth. 7. The preform tooling arrangement of claim 1 , wherein: each of the second plurality of perforations are sized and configured to receive the textile needle; and each of the first plurality of perforations are sized and configured to receive the textile needle. 8. The preform tooling arrangement of claim 7 , wherein: a center axis of each perforation of the first plurality of perforations is aligned with a center axis of a corresponding perforation of the second plurality of perforations; and each perforation of the second plurality of perforations disposed in the stripper plate is configured to receive the textile needle therethrough, whereby the textile needle penetrates through the fibrous preform and at least partially through the corresponding perforation of the first plurality of perforations disposed in the base plate. 9. The preform tooling arrangement of claim 1 , wherein the male die surface is a convex surface and the female die surface is a concave surface. 10. The preform tooling arrangement of claim 1 , wherein: the base plate comprises at least one of a metallic material, a graphite material, a C/C composite material, or a ceramic matrix composite material; and the stripper plate comprises at least one of the metallic material, the graphite material, the C/C composite material, or the ceramic matrix composite material. 11. The preform tooling arrangement of claim 1 , wherein the first plurality of perforations and the second plurality of perforations comprise perforated zones alternating with non-perforated zones. 12. The preform tooling arrangement of claim 1 , wherein at least one of the first plurality of perforations or the second plurality of perforations are arranged in a pattern, and wherein the pattern comprises at least one of a rectangular pattern, a hexagonal pattern, a triangular pattern, or a circular pattern. 13. The preform tooling arrangement of claim 1 , wherein the first plurality of perforations cover between 50-99% of the base plate and the second plurality of perforations cover between 50-99% of the stripper plate. 14. The preform tooling arrangement of claim 1 , wherein at least one of the first plurality of perforations or the second plurality of perforations comprise round holes of between 0.05 inch and 0.75 inch in diameter. 15. The preform tooling arrangement of claim 1 , wherein the first plurality of perforations comprise between 20%-75% of a total surface area of the base plate. 16. The preform tooling arrangement of claim 15 , wherein the second plurality of perforations comprise between 20%-75% of a total surface area of the stripper plate. 17. The preform tooling arrangement of claim 1 , further comprising a clamp configured to bias the base plate toward the stripper plate, the clamp comprises a first clamp half moveable with respect to a second clamp half, and the first clamp half is configured to move toward the second clamp half while the fibrous preform is in a furnace. 18. The preform tooling arrangement of claim 1 , further comprising a foam layer configured to be disposed between the fibrous preform and the base plate while the fibrous preform receives the textile needle. 19. The preform tooling arrangement of claim 1 , wherein the base plate further comprises a first base plate wall and a second base plate wall oriented at the non-parallel angle with respect to the first base plate wall. 20. A preform tooling arrangement, comprising: a base plate comprising a male die surface; a stripper plate comprising a female die surface, an outer surface, a first wall, and a second wall oriented at a non-parallel angle with respect to the first wall, the stripper plate is moveable with respect to the base plate; a first plurality of perforations disposed in the base plate; a second plurality of perforations disposed in the stripper plate, the second plurality of perforations includes a plurality of first wall perforations extending through the first wall and a plurality of second wall perforations extending through the second wall; a clamp configured to bias the base plate toward the stripper plate, the clamp comprises a first clamp half moveable with respect to a second clamp half, and the first clamp half is configured to move toward the second clamp half while a fibrous preform is in a furnace; and at least one textile needle movable with respect to the base plate and the stripper plate; wherein the preform tooling arrangement is configured to receive the fibrous preform between the male die surface and the female die surface, and each perforation of at least one of the first plurality of perforations or the seco