Method for composite flow molding

What is claimed: 1. A method for molding a fiber-composite part, wherein a design requires the part to exhibit at least one of (i) a difference in the magnitude of a property or characteristic, or (ii) differing properties or characteristics, between a first region and a second region of the part, the method comprising: advancing a plunger through a plunger cavity, the advancing plunger forcing liquefied resin and a plurality of fibers, sourced from a plurality of preforms, from the plunger cavity into a mold cavity; preferentially flowing liquefied resin and a first group of fibers of the plurality thereof toward a first region in the mold cavity, the first group of fibers imparting at least one of a first magnitude of the property or characteristic, or a first property or characteristic, at the first region of the part; and after the liquefied resin and first group of fibers flow to the first region of the mold cavity, preferentially flowing liquefied resin and a second group of fibers of the plurality thereof toward a second region in the mold cavity, the second group of fibers imparting at least one of a second magnitude of the property or characteristic, or a second property or characteristic, at the second region of the part. 2. The method of claim 1 and further wherein preferentially flowing liquefied resin and a first group of fibers further comprises reducing pressure in the first region relative to other regions of the mold cavity. 3. The method of claim 2 and further wherein reducing pressure in the first region further comprises actuating a first vent that is fluidically coupled to the first region. 4. The method of claim 2 and further wherein preferentially flowing liquefied resin and a second group of fibers further comprises reducing pressure in the second region relative to other regions of the mold cavity. 5. The method of claim 4 and further wherein: reducing pressure in the first region further comprises actuating a first vent that is fluidically coupled to the first region; and reducing pressure in the second region further comprises actuating a second vent that is fluidically coupled to the second region. 6. The method of claim 1 wherein the plurality of preforms comprises a first group of preforms having the first group of fibers and a second group of preforms having a second group of fibers, wherein the first and second group of preforms differ from one another as to at least one characteristic. 7. The method of claim 6 wherein the at least one characteristic is selected from the group consisting of a length of the fibers of the preforms, a composition of the fibers of the preforms, and a fiber volume fraction of the preforms. 8. The method of claim 6 wherein the one characteristic is a length of the fibers of the preforms, and wherein the first group of preforms has relatively shorter fibers than the second group of preforms, the method further comprising sequencing the first group and second group of preforms in a stack in the plunger cavity such that the first group is positioned relatively closer to the mold cavity. 9. The method of claim 6 wherein a spatial orientation of the first group of preforms and the second group of preforms in the plunger cavity differs from one another. 10. The method of claim 1 , and further comprising adding a preform to the mold cavity before advancing the plunger. 11. The method of claim 6 further comprising coordinating the order in which the first group of preforms and the second group of preforms are stacked in the plunger cavity with the sequence in which the first group of fibers and the second group of fibers are preferentially flowed toward respective first and second regions of the mold cavity. 12. A method for molding, comprising: ordering, in a stack within a plunger cavity, first and second groups of preforms, each group comprising plural preforms, each preform comprising resin-coated fibers, wherein the first group of preforms and the second group of preforms differ from one another as to at least one characteristic; liquefying the resin; advancing a plunger through the plunger cavity to force, into a mold cavity, fibers and resin from the two groups of preforms; and actuating, in sequence, a first vent and then a second vent, wherein: the first vent is fluidically coupled to a first region of the mold cavity, the second vent is fluidically coupled to a second region of the mold cavity, actuation of the first vent results in preferential flow of fiber to the first region, actuation of the second vent results in preferential flow of fiber to the second region, and wherein the ordering of preforms in the stack and the sequencing of actuation of the vents are coordinated so that fibers from the first group of preforms flow to the first region and fibers from the second group of preforms flow to the second region. 13. The method of claim 12 further comprising cooling the fibers and resin to create a composite part. 14. The method of claim 12 wherein ordering, in a stack, further comprises providing a first spatial orientation to the first group of preforms and a second spatial orientation to the second group of preforms in the plunger cavity. 15. The method of claim 14 wherein the first spatial orientation and the second spatial orientation are individually selected from the group consisting of axially aligned with respect to the plunger cavity, transversely aligned with respect to the plunger cavity, axially aligned with respect to the mold cavity, transversely aligned with respect to the mold cavity. 16. The method of claim 14 wherein the first group of preforms and the second group of preforms are transversely aligned with respect to the plunger cavity, and are neither orthogonal nor parallel to one another.