Integrated smart susceptor heater blanket and vacuum bag deployment system for large composite skin laminate debulk

The invention claimed is: 1. A heater blanket deployment system, comprising: a first workstation, comprising: a first heater blanket assembly comprising a first smart susceptor heater blanket and a second smart susceptor heater blanket, wherein the second smart susceptor heater blanket is positioned adjacent to the first smart susceptor heater blanket; a first layup mandrel configured to receive a first workpiece during processing by the first workstation; and a first vacuum bag attached to the first and second smart susceptor heater blankets; and a second workstation, comprising: a second heater blanket assembly comprising a third smart susceptor heater blanket and a fourth smart susceptor heater blanket, wherein the fourth smart susceptor heater blanket is positioned adjacent to the third smart susceptor heater blanket; a second layup mandrel configured to receive a second workpiece during processing by the second workstation; and a second vacuum bag attached to the third and fourth smart susceptor heater blankets; and a frame comprising: a first support surface supporting the first heater blanket assembly; and a second support surface supporting the second heater blanket assembly; and at least one power supply configured to supply power to the first workstation and to the second workstation; wherein the frame is configured such that: the first heater blanket assembly can move toward the first layup mandrel of the first workstation only when the second heater blanket assembly is moving away from the second layup mandrel of the second workstation; and the second heater blanket assembly can move toward the second layup mandrel only when the first heater blanket assembly is moving away from the first layup mandrel. 2. The heater blanket deployment system of claim 1 , wherein the frame further comprises a strut that physically connects the first and second support surfaces and the first and second heater blanket assemblies together in a fixed position relative to each other. 3. The heater blanket deployment system of claim 2 , configured such that a first workpiece can be processed at the first workstation only when a second workpiece at the second workstation is not being processed. 4. The heater blanket deployment system of claim 2 , the frame further comprising: a base mechanically coupled to the first support surface and to the second support surface; and a rod coupled to the base, wherein: the first support surface and the second support surface are rotatably attached to the rod and configured to maintain an angle of from 90° to 135° formed by the first support surface and the second support surface while rotating; and the first support surface, the second support surface, and the base form a Y-shaped frame. 5. The heater blanket deployment system of claim 1 , further comprising a first plurality of lifting straps attached to the first vacuum bag and a second plurality of lifting straps attached to the second vacuum bag, wherein the frame is configured to lower the first heater blanket assembly toward, and raise the first heater blanket assembly away from, the first layup mandrel using the first plurality of lifting straps, and is further configured to lower the second heater blanket assembly toward, and raise the second heater blanket assembly away from, the second layup mandrel using the second plurality of lifting straps. 6. The heater blanket deployment system of claim 1 , wherein: the first workstation is configured such that the first vacuum bag overlies the first layup mandrel during processing of the first workpiece; the second workstation is configured such that the second vacuum bag overlies the second layup mandrel during processing of the second workpiece; and the heater blanket deployment system further comprises a vacuum supply in fluid communication with the first vacuum bag and the second vacuum bag. 7. The heater blanket deployment system of claim 6 , further comprising at least a first elongated seal configured to maintain a first vacuum between the first heater blanket assembly and the first layup mandrel and at least a second elongated seal configured to maintain a second vacuum between the second heater blanket assembly and the second layup mandrel. 8. The heater blanket deployment system of claim 1 , further comprising a first protective release layer that overlies the first smart susceptor heater blanket and the second smart susceptor heater blanket, and a second protective release layer that overlies the third smart susceptor heater blanket and the fourth smart susceptor heater blanket. 9. The heater blanket deployment system of claim 8 , wherein the first protective release layer is positioned between the first smart susceptor heater blanket and the first layup mandrel, and the second protective release layer is interposed between the third smart susceptor heater blanket and the second layup mandrel. 10. The heater blanket deployment system of claim 1 , wherein: the first smart susceptor heater blanket comprises a first wire assembly comprising a first susceptor wire wrapped around a first litz wire and a first thermally conductive and electrically insulative first binder; and the second smart susceptor heater blanket comprises a second wire assembly comprising second susceptor wire wrapped around a second litz wire and a second thermally conductive and electrically insulative second binder. 11. The heater blanket deployment system of claim 10 , further comprising: a first wire ribbon comprising the first wire assembly, the first wire ribbon having a first length from a first connector to a second connector; and a second wire ribbon comprising the second wire assembly, the second wire ribbon having a second length from a third connector to a fourth connector. 12. The heater blanket deployment system of claim 11 , wherein the first length varies from the second length by no more than ±20%. 13. A heater blanket deployment system, comprising: a first workstation, comprising: a first heater blanket assembly comprising a first smart susceptor heater blanket and a second smart susceptor heater blanket positioned adjacent to the first smart susceptor heater blanket; a first vacuum bag attached to the first and second smart susceptor heater blankets; and a first layup mandrel configured such that during processing of a first workpiece, the first smart susceptor heater blanket, the second smart susceptor heater blanket, and the first vacuum bag overlie the first layup mandrel; and a second workstation, comprising: a second heater blanket assembly comprising a third smart susceptor heater blanket and a fourth smart susceptor heater blanket positioned adjacent to the third smart susceptor heater blanket; a second vacuum bag attached to the third and fourth smart susceptor heater blankets; and a second layup mandrel configured such that during processing of a second workpiece, the third smart susceptor heater blanket and the fourth smart susceptor heater blanket overlie the second layup mandrel; and a frame, comprising: a first support surface supporting the first heater blanket assembly; a second support surface supporting the second heater blanket assembly; and a frame assembly configured such that the first and second smart susceptor heater blankets can move toward the first layup mandrel only when the frame assembly moves the third and fourth smart susceptor heater blankets away from the second layup mandrel, and the frame assembly is further configured to move the third and fourth smart susceptor heater blankets toward the second layup mandrel only when the frame assembly moves the fi