Apparatus for forming fuselage stringers

What is claimed is: 1. An apparatus for fabricating a composite stiffener, the apparatus comprising: a tool having first and second tool surfaces; a mold cavity adapted to form a composite charge, the composite charge having first and second sides, the second side opposite the first side; a forming bladder for forcing the composite charge into the mold cavity, the forming bladder configured to inflate by internal pressurization, wherein inflation of the forming bladder forces the composite charge into the mold cavity; first and second pinch bladders respectively on opposite sides of the forming bladder, the forming bladder interposed between the first pinch bladder and the second pinch bladder, the first and second pinch bladders adapted to contact and pinch the first and second sides of the composite charge against the first and second tool surfaces while the composite charge is being forced into the mold cavity; and a pressurizing system operatively connected to the forming bladder, the first pinch bladder, and the second pinch bladder, wherein the pressurizing system is configured to separately pressurize the forming bladder, the first pinch bladder, and the second pinch bladder, wherein: first pressurization of the first pinch bladder prevents movement of the first side of the composite charge; second pressurization of the second pinch bladder allows slippage of the second side of the composite charge over the tool toward the mold cavity, the second pressurization different than the first pressurization; and third pressurization of the forming bladder forces the composite charge into the mold cavity, the third pressurization different than the second pressurization, and different than the first pressurization. 2. The apparatus of claim 1 , further comprising the pressurization system: coordinating the first pressurization, the second pressurization, and the third pressurization. 3. The apparatus of claim 2 , further comprising the pressurization system: holding the first and second sides of the composite charge against and on the tool as the composite charge is being formed into the mold cavity; and holding the first side of the composite charge against movement on the tool during forming of the composite charge into the mold cavity while allowing the second side of the composite charge to slip on and over the tool. 4. The apparatus of claim 1 , wherein the composite charge on the tool includes a centerline of the mold cavity and a centerline offset for a centerline of the composite charge. 5. The apparatus of claim 4 , wherein the centerline offset for a centerline of the composite charge is offset from the centerline of the mold cavity by a distance. 6. The apparatus of claim 2 , further comprising the pressurization system: forcing the forming bladder into the mold cavity; and expanding the forming bladder as the forming bladder is being forced into the mold cavity. 7. The apparatus of claim 2 , further comprising the pressurization system: bringing the first and second pinch bladders into contact with the first and second sides of the composite charge, and pressurizing each of the first and second pinch bladders. 8. The apparatus of claim 7 , further comprising the pressurization system: holding the first side of the composite charge against movement while allowing the second side of the composite charge to slip over the tool by pressurizing the first pinch bladder to a pressure higher than the pressure of the second pinch bladder. 9. The apparatus of claim 2 , further comprising the pressurization system: forming the composite charge into the mold cavity by bringing the forming bladder into contact with the composite charge; forcing the forming bladder into the mold cavity; inflating the forming bladder as the forming bladder is forced into the mold cavity; holding opposite sides of the composite charge against the tool using first and second pinch bladders; and adjusting a pressurization of at least one of the first and second pinch bladders as the forming bladder moves into the mold cavity. 10. The apparatus of claim 2 , further comprising the pressurization system: forming the composite charge into the mold cavity by bringing the forming bladder into contact with the composite charge and progressively inflating the forming bladder. 11. The apparatus of claim 2 , further comprising the pressurization system: holding the first and second sides of the composite charge against the tool using first and second pinch bladders; inflating the first and second pinch bladders to different pressures; and adjusting the second pressurization as the forming bladder is being progressively inflated. 12. An apparatus for fabricating a composite stiffener having a hat and a pair of opposite flanges, the apparatus comprising: a tool having a mold cavity adapted to form a composite charge, the composite charge having a first portion and a second portion; a first pinch bladder adapted to apply a first pressure sufficient to hold the first portion against a first side of the tool without slippage while the hat of the composite stiffener is being formed; a second pinch bladder adapted to apply a second pressure to hold the second portion in tension against a second side of the tool while the hat of the composite stiffener is being formed into the mold cavity by allowing the second portion to slip over the tool toward the mold cavity; a forming bladder for forcing the composite charge into the mold cavity, the forming bladder configured to inflate by internal pressurization, wherein inflation of the forming bladder forces the composite charge into the mold cavity; a pressurizing system operatively connected to the forming bladder, the first pinch bladder, and the second pinch bladder, wherein the pressurizing system is configured to separately pressurize the forming bladder, the first pinch bladder, and the second pinch bladder; a computer for controlling the pressurizing system, the computer including a program comprising: first program code for placing the first pinch bladder against the first portion; and second program code for using the first pinch bladder to apply a first compressive force against the first portion sufficient to prevent slippage of the first portion relative to the tool. 13. The apparatus of claim 12 , wherein the tool further comprises: an index for offsetting the composite charge on the tool when placing the composite charge on the tool such that a centerline of the composite charge is offset a preselected distance from a centerline of the mold cavity. 14. The apparatus of claim 12 , further comprising: the program further comprising third program code for placing a second pinch bladder against the second portion; and fourth program code for using the second pinch bladder to apply a second compressive force against the second portion that is less than the first compressive force applied to the first portion by the first pinch bladder. 15. The apparatus of claim 12 , further comprising: the program further comprising third program code for forming the hat of the composite stiffener into the mold cavity by bringing the forming bladder into contact with the composite charge and progressively inflating the forming bladder. 16. The apparatus of claim 15 , further comprising: the program further comprising fourth program code for holding the first portion and the second portion of the composite charge against the tool using first and second pinch bladders; fifth program code for inflating the first and second pinch bladders to differing levels of