Cap with channels for forming a sealed cavity around fastener

The invention claimed is: 1. A cap for forming a sealed cavity around one end of a fastener, the cap comprising an inner cap member with a base terminating at an edge which surrounds an opening into a central cavity; an outer cap member which fits over the inner cap member and has a base; wherein either: the inner cap member has a number of channels formed in an outer surface of the inner cap member and a number of corresponding ridges formed in an inner surface of the inner cap member, the number of channels being the same as the number of corresponding ridges; or the outer cap member has a number of channels formed in an inner surface of the outer cap member and a number of corresponding ridges formed in an outer surface of the outer cap member, the number of channels being the same as the number of corresponding ridges. 2. A cap according to claim 1 , wherein either: the channels and the ridges extend longitudinally along a substantial portion of the inner cap member; or the channels and the ridges extend longitudinally along a substantial portion of the outer cap member. 3. A cap according to claim 1 , wherein the channel depth diminishes towards the top of the cap. 4. A cap according to claim 1 , wherein the channel width flares outwardly towards the base. 5. A cap according to claim 1 , wherein the base of the outer cap member forms a flange extending outwardly from the inner cap member at a point which is set back from the edge of the base of the inner cap member so as to define a pocket between the flange and the base of the inner cap member. 6. A cap according to claim 1 , wherein the cap members are substantially dome-shaped. 7. A cap according to claim 1 , wherein either: the inner cap member has a corrugated shape forming the channels and corresponding ridges; or the outer cap member has a corrugated shape forming channels and corresponding ridges. 8. A cap according to claim 1 , wherein the number of channels is eight or more. 9. A cap according to claim 1 , further comprising a sealant material between the inner cap member and the outer cap member. 10. A cap according to claim 1 wherein the channels and ridges are formed continuously around the circumference of the inner cap. 11. A method of installing a cap to form a sealed cavity around one end of a fastener, the fastener passing through a structure, the cap comprising an inner cap member with a base terminating at an edge which surrounds an opening into a central cavity; an outer cap member which fits over the inner cap member and has a base; and a sealant material between the inner cap member and the outer cap member, wherein either: the inner cap member has a number of channels formed in an outer surface of the inner cap member and a number of corresponding ridges formed in an inner surface of the inner cap member, the number of channels being the same as the number of corresponding ridges, the channels and the ridges extending longitudinally along a substantial portion of the inner cap member; or the outer cap member has a number of channels formed in an inner surface of the outer cap member and a number of corresponding ridges formed in an outer surface of the outer cap member, the number of channels being the same as the number of corresponding ridges, the channels and the ridges extending longitudinally along a substantial portion of the outer cap member, said method comprising the steps of: (a) fitting the cap over one end of the fastener so that the end of the fastener is enclosed by the inner cap member and a plurality of channels are defined between the inner and outer cap members; (b) pushing the outer cap member towards the structure so that the sealant material flows substantially via the channels towards the structure so as to form a bead of sealant around the base of the cap; and (c) adhering the cap to the structure with the sealant material. 12. A method according to claim 11 , wherein either: the channels and the ridges extend longitudinally along a substantial portion of the inner cap member; or the channels and the ridges extend longitudinally along a substantial portion of the outer cap member. 13. A method according to claim 11 , wherein either: the inner cap member has a corrugated shape forming the channels and corresponding ridges; or the outer cap member has a corrugated shape forming the channels and corresponding ridges. 14. A cap for forming a sealed cavity around one end of a fastener, the cap comprising an inner cap member with a base terminating at an edge which surrounds an opening into a central cavity; an outer cap member which fits over the inner cap member and has a base; wherein either: the inner cap member has a corrugated shape forming a plurality of channels in an outer surface of the inner cap member and a plurality of corresponding ridges in an inner surface of the inner cap member; or the outer cap member has a corrugated shape forming a plurality of channels in an inner surface of the outer cap member and a corresponding plurality of ridges in an outer surface of the outer cap member. 15. A cap according to claim 14 , wherein either: the channels and the ridges extend longitudinally along a substantial portion of the inner cap member; or the channels and the ridges extend longitudinally along a substantial portion of the outer cap member. 16. A cap according to claim 14 , wherein the longitudinal channels emanate from a common point at the top of the cap. 17. A cap according to claim 14 , wherein the base of the outer cap member forms a flange extending outwardly from the inner cap member at a point which is set back from the edge of the base of the inner cap member so as to define a pocket between the flange and the base of the inner cap member. 18. A cap according to claim 14 , further comprising a sealant material between inner cap member and the outer cap member. 19. A method of installing a cap to form a sealed cavity around one end of a fastener, the fastener passing through a structure, the cap comprising an inner cap member with a base terminating at an edge which surrounds an opening into a central cavity; an outer cap member which fits over the inner cap member and has a base; and a sealant material between the inner cap member and the outer cap member, wherein either: the inner cap member has a corrugated shape forming a plurality of channels in an outer surface of the inner cap member and a plurality of corresponding ridges in an inner surface of the inner cap member; or the outer cap member has a corrugated shape forming a plurality of channels formed in an inner surface of the outer cap member and a corresponding plurality of ridges in an outer surface of the outer cap member, said method comprising the steps of: (a) fitting the cap over one end of the fastener so that the end of the fastener is enclosed by the inner cap member and a plurality of channels are defined between the inner and outer cap members; (b) pushing the outer cap member towards the structure so that the sealant material flows substantially via the channels towards the structure so as to form a bead of sealant around the base of the cap; and (c) adhering the cap to the structure with the sealant material. 20. A method according to claim 19 , wherein either: the channels and the ridges extend longitudinally along a substantial portion of the inner cap member; or the channels and the ridges extend longitudinally along a substantial portion of the outer cap member.