Conductive fastening system for composite structures

The invention claimed is: 1. A fastener system for connecting a composite structure to a support structure, the fastener system comprising: a composite structure hole extending through the composite structure and sharing a common axis with a support structure hole extending at least partially through the support structure, the composite structure hole and the support structure hole each having an inner surface that surrounds the common axis; a fastener comprising a shank having an outer surface, the fastener passing through the composite structure hole and at least partially through the support structure hole and providing an annular space between the outer surface of the shank and the inner surface of the composite structure hole; and a conductive paste disposed in the annular space, the conductive paste comprising conductive particles suspended in a bonding agent, wherein the conductive paste has a viscosity of less than 10,000 cP. 2. The fastener system of claim 1 wherein a ratio of the volume of the conductive particles to a total volume of the conductive paste in the annular space exceeds 0.64. 3. The fastener system of claim 1 wherein a ratio of the volume of the conductive particles to a total volume of the conductive paste in the annular space exceeds 0.70. 4. The fastener system of claim 3 wherein the conductive particles are spherical. 5. The fastener system of claim 1 wherein a ratio of the volume of the conductive particles to a total volume of the conductive paste in the annular space is about 0.74. 6. The fastener system of claim 5 wherein the conductive particles are spherical and have a mean particle diameter of about 30 microns. 7. The fastener system of claim 1 wherein the conductive particles are fabricated from a material selected from the group consisting of copper, nickel, chromium, aluminum, mixtures thereof and alloys thereof. 8. The fastener system of claim 1 wherein the conductive paste has a viscosity in a range from about 1500 to about 3000 cP. 9. The fastener system of claim 1 wherein the support structure hole extends through the support structure, the fastener includes a proximal end comprising a head disposed opposite the shank from a threaded distal end disposed beyond the support structure, the threaded distal end threadably coupled to a nut disposed opposite the support structure from the composite structure. 10. The fastener system of claim 9 wherein the composite structure hole includes a recessed portion for accommodating the head of the fastener. 11. The fastener system of claim 1 , wherein the inner surface of the composite structure hole includes a plurality of indentations. 12. The fastener system of claim 11 , wherein the conductive particles are spherical and have a mean particle diameter that is smaller than the indentations. 13. A conductive connection between a composite structure and a support structure, the conductive connection comprising: the composite structure positioned adjacent to the support structure; the composite structure comprising a composite structure hole extending through the composite structure and the support structure comprising a support structure hole extending at least partially through the support structure, the composite structure hole and the support structure hole being coaxial, the composite structure hole and the support structure hole each having an inner surface; a fastener comprising a shank having an outer surface, the fastener passing through the composite structure hole and at least partially through the support structure hole and providing an annular space between the outer surface of the shank and the inner surface of the composite structure hole; and a conductive paste disposed in the annular space, the conductive paste comprising conductive particles suspended in a bonding agent, wherein the conductive paste has a viscosity of less than 10,000 cP. 14. The conductive connection of claim 13 wherein the conductive particles are spherical and have a mean particle size of about 30 microns. 15. The conductive connection of claim 14 wherein the ratio of the volume of the conductive particles to the total volume of the conductive paste in the annular space is about 0.74. 16. The conductive connection of claim 13 wherein the conductive particles are fabricated from a material selected from the group consisting of copper, nickel, chromium, aluminum, mixtures thereof and alloys thereof. 17. The conductive connection of claim 13 wherein the conductive paste has a viscosity in a range from about 1500 to about 3000 cP. 18. The conductive connection of claim 13 wherein the fastener includes a proximal end comprising a head disposed opposite the shank from a threaded distal end disposed beyond the support structure, the threaded distal end threadably coupled to a nut disposed opposite the support structure from the composite structure. 19. The conductive connection of claim 18 wherein the composite structure hole includes a recessed portion for accommodating the head of the fastener. 20. A method of connecting a composite structure to a support structure with interrupting a conductive path through the composite structure, the method comprising: mixing conductive particles bonding agent to provide a conductive paste, the conductive paste having a viscosity of less than 10,000 cP; positioning the composite structure adjacent to the support structure; providing a hole that extends coaxially through the composite structure and the support structure; forming a countersink coaxially with the hole in the composite structure opposite the support structure; at least partially filling the countersink and the hole with the conductive paste; providing a fastener having a shank disposed between a proximal head and a distal threaded end; inserting the fastener into and through the hole such that the proximal head is disposed in the countersink and the distal threaded end extends beyond the support structure; threadably coupling a nut onto the distal threaded end of the fastener; and tightening the nut thereby providing electrical contact between the composite structure, the fastener and the conductive paste.