Systems and methods for forming composite structures using resin infusion

What is claimed is: 1. A system for forming a composite structure, the system comprising: a tool for infusing a dry preform with a resin, wherein the tool comprises: a tool base that comprises a base surface, the base surface forming a base portion of a tool cavity; and a tool lid that comprises a plurality of lid sections that form a lid surface, the lid surface forming a lid portion of the tool cavity, and each one of the lid sections is movable relative to the tool base in response to application of a press force for generating an interior pressure within the tool cavity; a plurality of adjustable stops that is positioned between the tool base and the tool lid and that is configured to react to the press force applied to the tool lid; and a controller that is in communication with the adjustable stop and that comprises a processor programmed to instruct the adjustable stops to independently adjust a position of each one of the lid sections relative to the tool base for maintaining the curing pressure over time in response to a reduction in a volume of the resin. 2. The system of claim 1 , further comprising a gap measurement sensor that measures a dimension of a gap between the base surface and the lid surface and that transmits dimension measurements to the processor for instructing the adjustable stops, wherein the processor instructs the adjustable stops to adjust the position of the lid sections relative to the tool base based on the dimension measurement. 3. The system of claim 2 , wherein the processor is programmed to compare the dimension measurement to a model of a resin-infused preform that represents changes in the volume of the resin over time during cure. 4. The system of claim 1 , further comprising a pressure sensor that measures the interior pressure within the tool cavity and that transmits pressure measurements to the processor for instructing the adjustable stops, wherein the processor instructs the adjustable stops to adjust the position of the lid sections relative to the tool base based on the pressure measurement. 5. The system of claim 4 , wherein the processor comprises a feedback loop that: responds to changes in the interior pressure; and provides changes in a stop position of the adjustable stops to maintain a constant value for the curing pressure applied to the resin and the dry preform within the tool cavity. 6. The system of claim 1 , further comprising a force sensor that measures a stop reaction force applied to the tool lid by the adjustable stops in opposition to the press force and that transmits force measurements to the processor for instructing the adjustable stops, wherein the processor instructs the adjustable stops to adjust the position of the lid sections relative to the tool base based on the force measurement. 7. The system of claim 1 , further comprising sensors that measure the interior pressure within the tool cavity, a dimension of a gap between the base surface and the lid surface, and a stop reaction force applied to the tool lid by the adjustable stops in opposition to the press force, wherein the processor instructs the adjustable stops to adjust the position of the lid sections relative to the tool base based on pressure measurements, dimension measurements, force measurements. 8. The system of claim 7 , the processor comprises a feedback loop that: responds to changes in at least one of the interior pressure, the dimension of the gap, and the stop reaction force; and provides changes in at least one of a stop position of the adjustable stops and the stop reaction force to maintain a constant value for the curing pressure applied to the resin and the dry preform within the tool cavity. 9. The system of claim 7 , wherein the processor comprises a feedback loop that: responds to changes in the stop reaction force; and provides changes in the stop reaction force of the adjustable stops to maintain a constant value for the curing pressure applied to the resin and the dry preform within the tool cavity. 10. The system of claim 1 , wherein at least one of the adjustable stops comprises a linear actuator. 11. The system of claim 1 , wherein at least one of the adjustable stops comprises an inflatable bladder. 12. A tool for forming composite structure, the tool comprising: a tool base that comprises a base surface forming a base portion of a tool cavity; a tool lid that comprises a lid surface forming a lid portion of the tool cavity and that is movable relative to the tool base in response to application of a press force for generating an interior pressure within the tool cavity; an inflatable bladder that is positioned between the tool base and the tool lid and that is configured to: react to the press force applied to the tool lid; and adjust a position of the tool lid relative to the tool base in response to changes in at least one of the interior pressure, a dimension of a gap between the base surface and the lid surface, and a stop reaction force applied to the tool lid by the inflatable bladder in opposition to the press force for maintaining the curing pressure over time due to a reduction in a volume of the resin-infused preform. 13. The system of claim 12 , wherein: the tool lid comprises a plurality of lid sections; and a position of each one of the lid sections relative to the tool base is independently adjusted by one of a plurality of adjustable stops. 14. A method for forming a composite structure, the method comprising steps of: placing a dry preform within a tool cavity of a tool formed by a tool base and a tool lid, the tool lid comprising a plurality of lid sections; applying a press force to the tool lid to move the tool lid toward the tool base; reacting to the press force with a plurality of adjustable stops located between the tool base and the tool lid; infusing the dry preform with a resin; and controlling the adjustable stops to independently adjust a position of the each one of the lid sections relative to the tool base for maintaining the curing pressure over time in response to a reduction in a volume of the resin-infused preform during cure. 15. The method of claim 14 , further wherein the step of controlling the adjustable stops to adjust the position of the lid sections relative to the tool base comprises reacting to the press force applied by the tool lid of the tool in response to a decrease in a preform reaction force applied by the resin-infused preform. 16. The method of claim 14 , further comprising: setting a first position of the tool lid of the tool relative to the tool base of the tool before the step of infusing the dry preform with the resin such that a cavity volume is at least approximately equal to a volume of the dry preform and the resin; and setting a second position of the tool lid relative to the tool base after the step of infusing the dry preform with the resin such that the cavity volume is decreased. 17. The method of claim 14 , further comprising: measuring a dimension of a gap between a base surface of the tool base and a lid surface of the tool lid; and automatically adjusting the position of the lid sections relative to the tool base over time in response to dimension measurements to maintain a constant value for the curing pressure during cure of the resin-infused preform. 18. The method of claim 14 , further comprising: measuring an interior pressure within the tool cavity; and automatically adjusting the position of the lid sections relative to the tool base over time in response to pressure measur