Apparatus and method of forming a composite structure

What is claimed is: 1. A drape forming apparatus for use in forming a composite structure, said apparatus comprising: a forming tool comprising an upper forming surface and at least one side forming surface that extends from said upper forming surface, said forming tool configured to receive at least one layer of composite material extending over said upper forming surface; a flange forming device comprising an upper plate, a lower plate, a biasing device extending from said upper plate, a compression plate coupled at a free end of said biasing device, and a receiving slot defined between said compression plate and said lower plate, said receiving slot for receiving a flange portion of the at least one layer of composite material, wherein said flange forming device is translatable relative to said forming tool, wherein said upper plate and said lower plate are hingeably coupled, and rotatable relative, to each other such that said flange forming device is selectively positioned between an open position and a closed position, and wherein said biasing device is configured to bias said compression plate towards said lower plate and bias against the flange portion with a predetermined retaining force that enables the flange portion of the at least one layer of composite material to be withdrawn from said receiving slot and draped over said at least one side forming surface when the forming device is in the closed portion and translates relative to said forming tool; and a pressurized bladder configured to extend over said forming tool and said upper plate of said flange forming device, said pressurized bladder configured to force the flange portion against said at least one side forming surface as said flange forming device translates relative to said forming tool. 2. The apparatus in accordance with claim 1 , wherein said flange forming device further comprises a slide bumper that extends from a side edge of said lower plate, the slide bumper configured to guide said flange forming device along said at least one side forming surface as said flange forming device translates relative to the at least one side forming surface. 3. The apparatus in accordance with claim 1 , wherein said flange forming device further comprises an elongated member extending from said upper plate, said elongated member oriented to pre-stretch a portion of said pressurized bladder prior to said portion forcing the flange portion against said at least one side forming surface. 4. The apparatus in accordance with claim 1 further comprising: a base; a first actuator coupled between said base and said flange forming device, said first actuator configured to selectively translate said flange forming device relative to said forming tool along said at least one side forming surface; and a second actuator coupled between said base and said flange forming device, said second actuator configured to selectively translate said flange forming device one of towards or away from said at least one side forming surface. 5. A flange forming device for use in forming a composite structure from at least one layer of composite material, said device comprising: an upper plate; a lower plate; a biasing device extending from said upper plate; a compression plate coupled at a free end of said biasing device; and a receiving slot defined between said compression plate and said lower plate, said receiving slot for receiving a flange portion of the at least one layer of composite material; wherein said upper plate and said lower plate are hingeably coupled, and rotatable relative, to each other such that said flange forming device is selectively positioned between an open position and a closed position; and wherein said biasing device is configured to bias said compression plate towards said lower plate and bias against the flange portion with a predetermined retaining force that enables the flange portion of the at least one layer of composite material to be withdrawn from said receiving slot when the forming device is in the closed portion and translates relative to a forming tool. 6. The device in accordance with claim 5 , wherein said flange forming device further comprises a slide bumper that extends from a side edge of said lower plate. 7. The device in accordance with claim 5 , wherein said flange forming device further comprises an elongated member extending from said upper plate, said elongated member oriented substantially vertically relative to said upper plate. 8. The device in accordance with claim 5 further comprising: a base; a first actuator coupled between said base and said flange forming device, said first actuator configured to selectively translate said flange forming device along a first axis; and a second actuator coupled between said base and said flange forming device, said second actuator configured to selectively translate said flange forming device along a second axis oriented obliquely relative to the first axis. 9. A method of forming a composite structure, said method comprising: providing a forming tool comprising an upper forming surface and at least one side forming surface that extends from said upper forming surface; providing a flange forming device comprising an upper plate, a lower plate hingeably coupled to the upper plate, a biasing device extending from said upper plate, a compression plate coupled at a free end of said biasing device, and a receiving slot defined between said compression plate and said lower plate; extending at least one layer of composite material over the upper forming surface of the forming tool; positioning a flange portion of the at least one layer of composite material within the receiving slot; rotating the upper plate towards the lower plate such that said flange forming device moves from an open position to a closed position; biasing the compression plate towards said lower plate using the biasing device to retain the flange portion in the receiving slot with a predetermined retaining force, extending a pressurized bladder over the forming tool and the upper plate of the flange forming device; and translating the flange forming device relative to the forming tool such that the flange portion of the at least one layer of composite material is withdrawn from the receiving slot and draped over said at least one side forming surface of the forming tool, wherein the pressurized bladder is configured to force the flange portion against the at least one side forming surface as the flange forming device translates relative to the forming tool. 10. The method in accordance with claim 9 , wherein translating the flange forming device comprises controlling the rate of translation of the flange forming device relative to the forming tool. 11. The method in accordance with claim 9 further comprising progressively covering the flange portion of the at least one layer of composite material with the pressurized bladder as the flange portion is withdrawn from the receiving slot. 12. The method in accordance with claim 9 further comprising positioning the flange forming device at a starting position relative to the forming tool such that the upper forming surface and an upper surface of the lower plate substantially align. 13. The method in accordance with claim 9 further comprising: tensioning the flange portion as the flange forming device translates relative to the forming tool, the tensioning based at least partially on the predetermined retaining force. 14. The method in accordance with claim 9 further comprising pre-stretching a portion of the pressurized bladder prior to the portion forcing the flange portion a