Twist drill and method of drilling composite materials, use and method regrinding and manufacturing thereof

The invention claimed is: 1. A twist drill for drilling composite materials, the twist drill comprising: a shank; a drill body; a drill tip including a cutting edge and at least two chisel edges, the at least two chisel edges comprising a primary chisel edge and a secondary chisel edge, wherein the secondary chisel edge has a secondary chisel angle of 145° to 165°, the drill tip also having a point angle of 70° to 100° and a primary facet extending behind the cutting edge and a secondary facet extending behind the primary facet, wherein a relief angle of the primary facet is 15° to 25°, and a relief angle of the secondary facet is 15° to 30°; and a flute extending from the drill tip to the drill body, the flute having a constant helix, and a helix angle of the flute being selected from the range 45° to 55°. 2. The twist drill according to claim 1 , wherein the drill tip has an axial rake angle of 5° to 8°. 3. The twist drill according to claim 1 , wherein the drill tip has a point angle of 85° to 88°. 4. The twist drill according to claim 1 , wherein the secondary chisel angle is 145° to 155°. 5. The twist drill according to claim 1 , wherein the flute has a right hand helix. 6. A method of drilling composite material comprising fibres, wherein the method includes the step of drilling the composite material using a twist drill comprising a shank; a drill body; a drill tip including a cutting edge and at least two chisel edges, the at least two chisel edges comprising a primary chisel edge and a secondary chisel edge, wherein the secondary chisel edge has a secondary chisel angle of 145° to 165°, the drill tip also having a point angle of 70° to 100° and a primary facet extending behind the cutting edge and a secondary facet extending behind the primary facet, wherein a relief angle of the primary facet is 15° to 25°, and a relief angle of the secondary facet is 15° to 30°; and a flute extending from the drill tip to the drill body, the flute having a constant helix, and a helix angle of the flute being selected from the range 45° to 55°. 7. The method according to claim 6 , wherein the composite material is carbon fibre reinforced plastic (CFRP) or glass fibre reinforced plastic (GFRP). 8. The method according to claim 7 , wherein the step of drilling comprises automated drilling. 9. The method according to claim 7 , wherein the method is a method of stack drilling. 10. The method according to claim 9 , wherein the stack comprises CFRP and GFRP. 11. The method according to claim 9 , wherein the stack comprises CFRP and Al. 12. A regrinding method comprising the step of regrinding a twist drill so as to form a twist drill having a shank; a drill body; a drill tip including a cutting edge and at least two chisel edges, the at least two chisel edges comprising a primary chisel edge and a secondary chisel edge, wherein the secondary chisel edge has a secondary chisel angle of 145° to 165°, the drill tip also having a point angle of 70° to 100° and a primary facet extending behind the cutting edge and a secondary facet extending behind the primary facet, wherein a relief angle of the primary facet is 15° to 25°, and a relief angle of the secondary facet is 15° to 30°; and a flute extending from the drill tip to the drill body, the flute having a constant helix, and a helix angle of the flute being selected from the range 45° to 55°. 13. A method of manufacturing a twist drill for drilling composite materials, the method comprising the steps of: (i) fluting a drill blank to produce a helical flute with a constant helix angle in the range of 45° to 55° from the start to the end of the flute; (ii) forming a cutting edge at the end of the flute; (iii) forming a drill tip to form a point angle of 70° to 100° and a primary facet extending behind the cutting edge and a secondary facet extending behind the primary facet, wherein a relief angle of the primary facet is 15° to 25°, and a relief angle of the secondary facet is 15° to 30°; (iv) forming a primary chisel angle; and (v) forming a secondary chisel angle in the range 140° to 165°.