Ice protection of aerodynamic surfaces

The invention claimed is: 1. An electrothermal heater mat for ice protection of an aerodynamic surface, said mat comprising a flexible substrate bearing printed heater tracks of a material of selected resistivity, said tracks being formed with a thermosetting ink containing electrically conductive particles. 2. A mat according to claim 1 wherein said ink also contains an inert filler. 3. A mat according to claim 1 wherein said electrically conductive particles comprise particles of carbon. 4. A mat according to claim 3 wherein said ink also contains particles of metal. 5. A mat according to claim 1 wherein said ink comprises a phenolic or epoxy resin. 6. A mat according to claim 1 wherein said flexible substrate also bears printed conductors for the supply of electrical energy to said tracks, said conductors being formed with an ink containing particles of metal. 7. A mat according to claim 6 wherein the ink of said conductors comprises particles of metal in a thermosetting resin. 8. A mat according to claim 6 wherein the ink of said conductors comprises particles of metal in a solvent having a boiling point above ambient temperature. 9. A mat according to claim 1 including a printed dielectric layer over said tracks. 10. A mat according to claim 9 comprising further heater tracks, and/or conductors for the supply of electrical energy to heater tracks, printed onto said dielectric layer. 11. A mat according to claim 1 wherein said flexible substrate is a polyimide sheet. 12. A mat according to claim 1 wherein said flexible substrate is a reinforcement cloth incorporated in a polymer composite material. 13. A method of producing an electrothermal heater mat for ice protection of an aerodynamic surface by printing heater tracks of a material of selected resistivity onto a flexible substrate with a thermosetting ink containing electrically conductive particles and curing such ink. 14. A method according to claim 13 wherein such ink is cured at an elevated temperature. 15. A method according to claim 13 wherein said tracks are formed by screen printing. 16. A method according to claim 13 wherein said tracks are printed in a single layer. 17. A method according to claim 13 wherein conductors for the supply of electrical energy to said tracks are formed by printing onto the flexible substrate with an ink containing particles of metal. 18. A structure including an aerodynamic surface and equipped with an electrothermal heater mat in proximity to such surface for ice protection of the same, said mat comprising a flexible substrate bearing printed heater tracks of a material of selected resistivity, said tracks being formed with a thermosetting ink containing electrically conductive particles. 19. A structure according to claim 18 being an aerodynamic lift-generating structure with said heater mat extending around the leading edge region thereof. 20. A structure according to claim 19 together with an electrical supply system adapted to control the energisation of said tracks such that in use for ice protection those tracks located in the region of the extreme leading edge of the structure are energised for longer time periods than tracks located aft thereof. 21. A structure according to claim 20 wherein in use for ice protection those tracks located in the region of the extreme leading edge of the structure are energised substantially continuously while tracks located aft thereof are energised cyclically. 22. A structure according to claim 19 wherein in use for ice protection the energisation of tracks located in the region of an upper surface of the structure alternates with the energisation of tracks located in the region of a lower surface of the structure. 23. A structure according to claim 19 being a helicopter rotor blade with said heater mat installed beneath an erosion shield thereof.