System for in-situ consolidation and curing of composite structures

What is claimed: 1. An apparatus for winding fiber tows to form a structure, the apparatus comprising: a carrier with spools of fiber mounted thereon, wherein the spools of fiber provide the fiber tows to form the structure; a mandrel; a guide element that directs the fiber tows from the spools of fiber onto the mandrel; a heating element that applies heat to the fiber tows; and a diaphragm element that defines an orifice about the mandrel; the diaphragm element including one or more displaceable portions that define a physical dimension of the orifice and that selectively displace to: open and close at a predetermined rate to vary the physical dimension of the orifice; and apply a predetermined pressure to the fiber tows disposed on the mandrel; an actuator that actuates the one or more displaceable portions; and control logic that controls the actuator to selectively open and close the one or more displaceable portions as the mandrel and the diaphragm element undergo relative translational displacement with respect to one another; wherein the control logic, in controlling the actuator to selectively open and close the one or more displaceable portions, takes into account a relative translational speed between the mandrel and the diaphragm element, via inputs comprising a detected or calculated position of the mandrel with respect to the diaphragm structure. 2. The apparatus according to claim 1 , wherein the displaceable portions of the diaphragm element define a diameter of the orifice. 3. The apparatus according to claim 1 , wherein: the diaphragm element comprises an iris diaphragm; and the one or more displaceable portions comprise blades that are displaceable in a radial direction with respect to the mandrel. 4. The apparatus according to claim 1 , further comprising: a bearing element that is concentric with respect to the mandrel and disposed about the mandrel; wherein the bearing element includes one or more rollers that contact the fiber tows disposed on the mandrel, after the displaceable portions of the diaphragm element apply the predetermined pressure to the fiber tows. 5. The apparatus according to claim 4 , wherein: the bearing element comprises an outer ring, wherein the one or more rollers are mounted on the outer ring; and the one or more rollers are displaceable along a radially inward direction from the outer ring, to contact the fiber tows disposed on the mandrel. 6. The apparatus according to claim 5 , wherein the outer ring is rotatable in a direction perpendicular to a central longitudinal axis of the mandrel, and rotates while the one or more rollers contact the fiber tows disposed on the mandrel. 7. The apparatus according to claim 4 , wherein the mandrel and the bearing element undergo relative translational displacement with respect to one another as the one or more rollers contact the fiber tows disposed on the mandrel. 8. The apparatus according to claim 1 wherein, as the mandrel and the diaphragm element continue to undergo relative translational displacement with respect to one another, the control logic is programmed to control the actuator to displace again the one or more displaceable portions and to apply a predetermined pressure to the fiber tows disposed on the mandrel at a different axial location along the mandrel. 9. The apparatus according to claim 1 , wherein the heating element: comprises a ring that surrounds and is disposed concentrically with respect to the mandrel; and directs heat radially inwardly toward the mandrel. 10. An apparatus for winding fiber tows to form a structure, the apparatus comprising: a carrier with spools of fiber mounted thereon, wherein the spools of fiber provide the fiber tows to form the structure; a mandrel; a guide element that directs the fiber tows from the spools of fiber onto the mandrel; a heating ring that: surrounds and is disposed concentrically with respect to the mandrel; and directs heat radially inwardly toward the mandrel; an iris diaphragm that defines an orifice about the mandrel; the iris diaphragm including a plurality of blades that are displaceable in a radial direction with respect to the mandrel and that selectively displace to: open and close at a predetermined rate to vary a diameter of the orifice; and apply a predetermined pressure to the fiber tows disposed on the mandrel; an actuator that actuates the plurality of blades; control logic that controls the actuator to selectively open and close the plurality of blades as the mandrel and the iris diaphragm undergo relative translational displacement with respect to one another; wherein the control logic, in controlling the actuator to selectively open and close the plurality of blades, takes into account a relative translational speed between the mandrel and the iris diaphragm, via inputs comprising a detected or calculated position of the mandrel with respect to the iris diaphragm; and a bearing element that is concentric with respect to the mandrel and disposed about the mandrel; wherein the bearing element includes a plurality of rollers that contact the fiber tows disposed on the mandrel, after the blades of the iris diaphragm apply the predetermined pressure to the fiber tows. 11. The apparatus according to claim 10 , wherein: the bearing element comprises an outer ring, wherein the rollers are mounted on the outer ring; and the rollers are displaceable along a radially inward direction from the outer ring, to contact the fiber tows disposed on the mandrel.