Composite manufacturing

The invention claimed is: 1. A method for manufacturing a composite article comprising: forming, at each of a plurality of forming stations, a plurality of pieces from feedstocks of laminar reinforcement material; simultaneously transporting formed pieces from multiple ones of the forming stations towards multiple lay-up stations, each lay-up station being capable of arranging a stack of the formed pieces in overlapping fashion; and laying up, at the plurality of lay-up stations, stacks of the formed pieces in overlapping fashion; wherein the step of transporting is performed by means of a single material handling device; wherein the single material handling device is a conveyor belt; wherein a plurality of cutting manipulators distribute formed pieces from the forming stations on to the single material handling device, and a plurality of lay-up manipulators distribute formed pieces from the single material handling device on to at least one of the lay-up stations. 2. A composite article manufacturing facility comprising: a plurality of forming stations, each forming station being capable of forming pieces from a feedstock of a laminar reinforcement material; a plurality of lay-up stations, each lay-up station being capable of arranging a stack of the formed pieces in overlapping fashion; a transfer mechanism configured to simultaneously transport formed pieces from multiple ones of the forming stations towards multiple ones of the lay-up stations, wherein the transfer mechanism is a conveyor belt; a plurality of cutting manipulators, each cutting manipulator being capable of distributing formed pieces from the forming stations on to the transfer mechanism; a plurality of lay-up manipulators, each lay-up manipulator being capable of distributing formed pieces from the transfer mechanism on to at least one of the lay-up stations; a memory storing a first sequence of pieces to be laid up at a first one of the lay-up stations and a second sequence of pieces to be laid up at a second one of the lay-up stations; and a controller coupled to the forming stations, the lay-up stations and the transfer mechanism for controlling the operations thereof, the controller having access to the memory and being configured to, when a formed piece of the first sequence and a formed piece of the second sequence are loaded on the transfer mechanism by the cutting manipulators, cause the transfer mechanism to simultaneously transport them towards the first and second lay-up stations respectively. 3. A composite article manufacturing facility as claimed in claim 2 , wherein the forming stations are arranged in a first row, the lay-up stations are arranged in a second row alongside the first row and the transfer mechanism is disposed between the first and second rows. 4. A composite article manufacturing facility as claimed in claim 3 , wherein the transfer mechanism is elongate along a direction in which the first and second rows extend. 5. A composite article manufacturing facility as claimed in claim 3 , wherein the transfer mechanism is operable in two directions, to move pieces from either end of the first row towards the respective opposite end of the second row. 6. A composite article manufacturing facility as claimed in claim 2 , wherein the controller is configured to cause the forming stations to form pieces and cause the transfer mechanism to transport those pieces so as to cause the pieces to be made available in the first and second sequences to the first and second lay-up stations respectively. 7. A composite article manufacturing facility as claimed in claim 6 , wherein the controller is configured to vary the direction in which pieces are conveyed by the transfer mechanism so as to cause the pieces to be made available in the first and second sequences to the first and second lay-up stations respectively. 8. A composite article manufacturing facility as claimed in claim 2 , wherein the controller is configured to cause the forming stations to place the formed pieces in non-overlapping fashion on the transfer mechanism. 9. A composite article manufacturing facility as claimed in claim 2 , wherein the controller is configured to cause multiple ones of the forming stations to simultaneously form multiple pieces of the first sequence. 10. A composite article manufacturing facility as claimed in claim 2 , wherein the controller is configured to cause multiple ones of the forming stations to simultaneously form multiple pieces of the first and second sequences. 11. A composite article manufacturing facility as claimed in claim 2 , comprising one or more stations configured for infusing resin into a stack of the pieces. 12. A composite article manufacturing facility as claimed in claim 2 , wherein at least one of the forming stations is capable of cutting the pieces from a feedstock of a laminar reinforcement material. 13. A composite article manufacturing facility as claimed in claim 2 , wherein the transfer mechanism comprises a first manipulator located so as to be capable of picking up formed pieces at a forming station and a second manipulator located so as to be capable of laying up formed pieces at a lay-up station, the second manipulator being located so that it can grip a formed piece being held by the first manipulator. 14. A composite article manufacturing facility as claimed in claim 13 , wherein the controller is configured to cause one or both of the first and second manipulators to invert a formed piece so as to cause it to be laid up in the opposite orientation about a horizontal axis to the orientation in which it is formed. 15. A composited article manufacturing facility as claimed in claim 14 , wherein the said formed piece is the first or last piece of a stack of pieces.