Thermoplastic composite part manufacturing system and method

What is claimed is: 1. A continuous compression molding machine, comprising: a tooling die extending through a heating zone and a cooling zone; a tooling sleeve corresponding to the tooling die, the tooling sleeve to form a thermoplastic composite part from a 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; and a biasing system comprising a spring, wherein the biasing system is configured to hold the thermoplastic composite charge at a first angle within at least a portion of the heating zone, and to hold the thermoplastic composite charge at a second angle within at least a portion of the cooling zone, as the tooling sleeve moves through the heating zone and the cooling zone together with the thermoplastic composite charge, wherein the first angle is different from the second angle. 2. The continuous compression molding machine of claim 1 , further comprising: a transition section in at least one of the heating zone or the cooling zone in which a transition from the first angle to the second angle occurs. 3. The continuous compression molding machine of claim 1 , wherein the biasing system comprises: a guide bar that holds the tooling sleeve at the second angle in the cooling zone, such that the thermoplastic composite charge is at the second angle. 4. The continuous compression molding machine of claim 3 , wherein the guide bar comprises: an elongate member; and guiding elements that apply pressure to the tooling sleeve such that the tooling sleeve is at the second angle, wherein the guiding elements comprise at least one of a pin with rounded edges, a roller, and a wheel. 5. The continuous compression molding machine of claim 1 , wherein the tooling die is at the second angle in the cooling zone. 6. The continuous compression molding machine of claim 1 , wherein the biasing system comprises: a seal bar that holds the tooling sleeve at the first angle in the heating zone. 7. The continuous compression molding machine of claim 1 , wherein the tooling die is an upper tooling die, and the tooling sleeve is a first tooling sleeve; and wherein the continuous compression molding machine further comprises: a lower tooling die extending through the heating zone and the cooling zone; and a second tooling sleeve corresponding to the lower tooling die, the second tooling sleeve to form 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; wherein the first tooling sleeve and the second tooling sleeve are configured to hold portions of the thermoplastic composite charge at a group of first angles within the heating zone and hold the 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 move through the heating zone and the cooling zone with the thermoplastic composite charge. 8. The continuous compression molding machine of claim 1 , wherein the tooling sleeve is at the first angle without being biased. 9. The continuous compression molding machine of claim 1 , wherein the thermoplastic composite charge has a flange that is held at the first angle in the heating zone, and at the second angle in the cooling zone. 10. The continuous compression molding machine of claim 1 , wherein the tooling sleeve is comprised of a material that is selected based on a temperature in the heating zone and an ability to return to an original shape after being held at the second angle. 11. The continuous compression molding machine of claim 1 , wherein the thermoplastic composite part is selected from at least one of a beam, an I-beam, a T-beam, a control surface, a stringer, a stiffener, or a part with a shape having angular features. 12. A continuous compression molding machine, comprising: a tooling die extending through a heating zone and a cooling zone; a tooling sleeve corresponding to the tooling die, the tooling sleeve to form a thermoplastic composite part from a 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; and a biasing system configured to hold the thermoplastic composite charge at a first angle within at least a portion of the heating zone, and to hold the thermoplastic composite charge at a second angle within at least a portion of the cooling zone, as the tooling sleeve moves through the heating zone and the cooling zone together with the thermoplastic composite charge, wherein the first angle is different from the second angle, wherein the biasing system comprises: a guide bar that holds the tooling sleeve at the second angle in the cooling zone, such that the thermoplastic composite charge is at the second angle, and wherein the biasing system comprises at least one of a Belleville washer, a coil spring, a leaf spring, a compression spring, a variable spring, a flat spring, a serpentine spring, or a cantilever spring. 13. A continuous compression molding machine, comprising: a tooling die extending through a heating zone and a cooling zone; a tooling sleeve corresponding to the tooling die, the tooling sleeve to form a thermoplastic composite part from a 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; and a biasing system configured to hold the thermoplastic composite charge at a first angle within at least a portion of the heating zone, and to hold the thermoplastic composite charge at a second angle within at least a portion of the cooling zone, as the tooling sleeve moves through the heating zone and the cooling zone together with the thermoplastic composite charge, wherein the first angle is different from the second angle, wherein the biasing system comprises: a guide bar that holds the tooling sleeve at the second angle in the cooling zone, such that the thermoplastic composite charge is at the second angle, and wherein the biasing system comprises at least one of a Belleville washer, a coil spring, a leaf spring, a compression spring, a variable spring, a flat spring, a serpentine spring, or a cantilever spring, that biases a seal bar towards the tooling sleeve. 14. A continuous compression molding machine, comprising: a tooling die extending through a heating zone and a cooling zone; a tooling sleeve corresponding to the tooling die, the tooling sleeve to form a thermoplastic composite part from a 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; and a biasing system configured to hold the thermoplastic composite charge at a first angle within at least a portion of the heating zone, and to hold the thermoplastic composite charge at a second angle within at least a portion of the cooling zone, as the tooling sleeve moves through the heating zone and the cooling zone together with the thermoplastic composite charge, wherein the first angle is different from the second angle, wherein the biasing system comprises: a seal bar that holds the tooling sleeve at the first angle in the heating zone, and wherein the biasing system comprises: a key that biases the seal bar away from the tooling sleeve.