Thermoplastic composite part manufacturing system and method

What is claimed is: 1. A method comprising: reducing residual stresses developed in angles of a thermoplastic composite part during processing in a continuous compression molding machine by: moving a thermoplastic composite charge for forming the thermoplastic composite part together with a tooling sleeve corresponding to a tooling die through a heating zone of the tooling die, wherein: the tooling sleeve and the tooling die are located in the continuous compression molding machine; and the thermoplastic composite charge comprises a first flange that comprises a flexible flange; holding the flexible flange of the thermoplastic composite charge at a first angle within the heating zone using the tooling sleeve and a biasing system, wherein the biasing system comprises at least one of a guide bar, springs, or a seal bar; moving the thermoplastic composite charge through a cooling zone of the tooling die; and holding the flexible flange of the thermoplastic composite charge at a second angle within the cooling zone using the tooling sleeve and the biasing system in the continuous compression molding machine, wherein the first angle is different from the second angle, wherein the biasing system provides a transition section in the flexible flange of the thermoplastic composite charge that enables spring back compensation to reduce residual stresses that develop during processing and wherein the transition section is stationary with respect to the continuous compression molding machine and located after holding the thermoplastic composite charge at the first angle and before holding the thermoplastic composite charge at the second angle. 2. The method of claim 1 further comprising: transitioning from holding the thermoplastic composite charge from the first angle to the second angle in a transition section located in at least one of the heating zone or the cooling zone. 3. The method of claim 1 , wherein the guide bar holds the tooling sleeve at the second angle in the cooling zone such that the thermoplastic composite charge has the second angle. 4. The method of claim 3 , wherein the guide bar comprises: an elongate member; and guiding elements comprising at least one of a pin, a roller, or a wheel for applying pressure to the tooling sleeve, such that the tooling sleeve has the second angle. 5. The method of claim 1 , wherein the tooling die has the second angle in the cooling zone. 6. The method of claim 1 , wherein the seal bar holds the tooling sleeve at the first angle in the heating zone. 7. The method of claim 1 , wherein the tooling sleeve has the first angle without being biased. 8. The method of claim 1 , wherein the thermoplastic composite charge has a second flange, and wherein holding the thermoplastic composite charge at the first angle within the heating zone using the biasing system comprises: holding the second flange of the thermoplastic composite charge at the first angle within the heating zone using the biasing system; and wherein holding the thermoplastic composite charge at the second angle within the cooling zone using the biasing system comprises: holding the second flange of the thermoplastic composite charge at the second angle within the cooling zone using the biasing system. 9. The method of claim 1 , wherein the tooling sleeve is comprised of a material that is selected based on: the material having an original shape prior to heating; and an ability of the material at a temperature of the heating zone to return to an original shape after being held at the second angle. 10. A method comprising: forming a thermoplastic composite part in a continuous compression molding machine by: disposing a tooling die to extend through a heating zone of the continuous compression molding machine and a cooling zone of the continuous compression molding machine, the tooling die comprising a tooling sleeve, a thermoplastic composite charge comprising a first flange, wherein the first flange comprises a flexible flange; forming the thermoplastic composite part from the thermoplastic composite charge when the tooling sleeve together with the thermoplastic composite charge is moved with respect to the tooling die through the heating zone and the cooling zone; holding the flexible flange of the thermoplastic composite charge with a biasing system at a first angle within the heating zone as the tooling sleeve moves through the heating zone together with the thermoplastic composite charge, wherein the biasing system comprises at least one of a guide bar, springs, or a seal bar; and holding the flexible flange of the thermoplastic composite charge with the biasing system at a second angle within the cooling zone as the tooling sleeve moves through the cooling zone together with the thermoplastic composite charge, the second angle different than the first angle, wherein the biasing system provides a transition section in the flexible flange of the thermoplastic composite charge that enables spring back compensation to reduce residual stresses that develop during processing and wherein the transition section is stationary with respect to the continuous compression molding machine and located after holding the flexible flange of the thermoplastic composite charge at the first angle and before holding the flexible flange of the thermoplastic composite charge at the second angle. 11. The method of claim 10 further comprising: transitioning from the first angle to the second angle in a transition section disposed in at least one of the heating zone or the cooling zone. 12. The method of claim 10 , further comprising: holding the tooling sleeve with the guide bar of the biasing system at the second angle in the cooling zone such that the thermoplastic composite charge is held at the second angle. 13. The method of claim 12 , further comprising: applying pressure to the tooling sleeve with a plurality of guiding elements of the guide bar, the plurality of guiding elements comprising at least one of a pin, a roller, or a wheel, such that the tooling sleeve is held at the second angle. 14. The method of claim 10 , further comprising: holding the tooling die at the second angle in the cooling zone. 15. The method of claim 10 , further comprising: holding the tooling sleeve with the seal bar of the biasing system at the first angle in the heating zone. 16. The method of claim 10 , wherein the tooling die is an upper tooling die, the tooling sleeve is a first tooling sleeve, and the method further comprises: disposing a lower tooling die to extend through the heating zone and the cooling zone, the lower tooling die comprising a second tooling sleeve; and forming the thermoplastic composite part from the thermoplastic composite charge when the thermoplastic composite charge is moved with respect to the lower tooling die through the heating zone and the cooling zone, the first tooling sleeve and the second tooling sleeve holding a plurality of portions of the thermoplastic composite charge at a group of first angles within the heating zone and holding the plurality of portions of the thermoplastic composite charge at a group of second angles within the cooling zone as the first tooling sleeve and the second tooling sleeve are moved through the heating zone and the cooling zone with the thermoplastic composite charge. 17. The method of claim 10 , further comprising: holding the tooling sleeve at the first angle without being biased. 18. The method of claim 10 , further comprising: holding a second flange of the thermop