Clipping tool

We claim: 1. A clipping tool for clipping flash from a component, the clipping tool comprising: a riser having a support surface for supporting the component; a punch for gripping the component between the punch and the support surface such that the flash projects laterally from the riser and the punch; and a tool body comprising a plurality of stacked plates in direct contact with each other and having a clipping aperture opening to a channel within the tool body, the channel being defined by a channel wall, and the riser and the punch being translatable together within the channel while gripping the component therebetween to shear the projecting flash from the gripped component, wherein: at least a portion of the channel wall comprises a broaching surface formed by first and second ones of the plurality of stacked plates; the first plate includes a first edge surface; the second plate is stacked below the first plate so as to be distal the clipping aperture and includes a second edge surface proximal the clipping aperture that forms a second plate cutting edge; and the second plate cutting edge constitutes a projection by extending into the channel beyond the first edge surface to reduce the cross-sectional area of the channel to less than that of the clipping aperture. 2. A clipping tool according to claim 1 , wherein there are a plurality of projections on the broaching surface. 3. A clipping tool according to claim 1 , wherein the second edge surface is an angled edge surface that extends from the second plate cutting edge proximal the clipping aperture away from the axis of the channel. 4. A clipping tool according to claim 1 , wherein the projection is a step, ridge or tooth. 5. A clipping tool according to claim 1 , wherein the broaching surface includes an inlet adjacent the projection proximal the clipping aperture. 6. A clipping tool according to claim 5 , further comprising a pneumatic flushing mechanism for flushing swarf from the inlet. 7. A clipping tool according to claim 1 , wherein: the clipping aperture and the channel have opposing lateral ends; and the broaching surface is provided at one or both of the laterally opposing ends. 8. A clipping tool according to claim 1 , wherein the first edge surface is a planar first edge surface. 9. A clipping tool according to claim 1 , wherein: the stacked plates include a third plate stacked below the second plate distal the clipping aperture; the third plate includes an angled third edge surface such that a third plate cutting edge is formed on the third edge surface proximal the clipping aperture, the angled third edge surface extending from the third plate cutting edge proximal the clipping aperture away from the axis of the channel; and the third plate cutting edge extends into the channel beyond the first edge surface. 10. A method of manufacturing a component, comprising: forming a desired shape of the component and thereby forming flash; and using the clipping tool of claim 1 , removing the flash. 11. A method of manufacturing a component according to claim 10 , wherein the component is an aerofoil component of a gas turbine engine. 12. A method of manufacturing a component according to claim 10 , wherein the forming comprising forging. 13. A method of manufacturing a component according to claim 12 , wherein the forging comprises forcing two dies together, the flash being formed at the interface of the two dies. 14. A method of clipping flash from a formed component using the clipping tool of claim 1 . 15. A clipping tool for clipping flash from a component, the clipping tool comprising: a riser having a support surface for supporting the component; a punch for gripping the component between the punch and the support surface such that the flash projects laterally from the riser and the punch; and a tool body comprising a plurality of stacked plates below the component and having a clipping aperture opening to a channel within the tool body, the channel being defined by a channel wall, and the riser and the punch being translatable together within the channel while gripping the component therebetween to shear the projecting flash from the gripped component, wherein: at least a portion of the channel wall comprises a broaching surface formed by first and second ones of the plurality of stacked plates; the first plate includes a first edge surface; the second plate is stacked below the first plate so as to be distal the clipping aperture and includes a second edge surface proximal the clipping aperture that forms a second plate cutting edge; and the second plate cutting edge constitutes a projection by extending into the channel beyond the first edge surface to reduce the cross-sectional area of the channel to less than that of the clipping aperture.