Metallic fittings for coupling composite ribs to skin panels of aircraft wings

What is claimed is: 1. A metallic fitting configured to couple a composite rib to a skin panel of an aircraft wing, the metallic fitting comprising: a through hole configured to receive a fastener, the fastener configured to couple the metallic fitting to the composite rib; a bore configured to receive a bolt; a cavity intersecting the bore, the cavity having an access opening; a barrel nut located within the cavity, the barrel nut configured to threadably engage the bolt to couple the metallic fitting to the skin panel; and a seal located within the cavity, the seal configured to close the access opening and to interface with fuel contained within the aircraft wing. 2. The metallic fitting of claim 1 , wherein the through hole is orthogonal to the bore. 3. The metallic fitting of claim 1 , further comprising a plate portion and a rib portion extending away from the plate portion. 4. The metallic fitting of claim 3 , wherein the through hole is formed in the plate portion. 5. The metallic fitting of claim 3 , wherein the bore is formed in the rib portion. 6. The metallic fitting of claim 5 , wherein the bore does not extend fully through the rib portion. 7. The metallic fitting of claim 3 , wherein the cavity is formed in the rib portion. 8. The metallic fitting of claim 7 , wherein the cavity does not extend fully through the rib portion. 9. The metallic fitting of claim 1 , wherein the seal is configured to prevent sparks from passing out of the cavity through the access opening. 10. A method for coupling a composite rib to a skin panel of an aircraft wing via a metallic fitting, the method comprising: extending a fastener through a through hole of the metallic fitting to couple the metallic fitting to the composite rib; and extending a bolt into a bore of the metallic fitting to couple the metallic fitting to the skin panel, the bolt threadably engaging a barrel nut located within a cavity of the metallic fitting, the cavity intersecting the bore and having an access opening, the access opening being closed by a seal located within the cavity. 11. The method of claim 10 , wherein the through hole is orthogonal to the bore. 12. The method of claim 10 , wherein the metallic fitting includes a plate portion and a rib portion extending away from the plate portion. 13. The method of claim 12 , wherein the through hole is formed in the plate portion. 14. The method of claim 12 , wherein the bore is formed in the rib portion. 15. The method of claim 14 , wherein the bore does not extend fully through the rib portion. 16. The method of claim 12 , wherein the cavity is formed in the rib portion. 17. The method of claim 16 , wherein the cavity does not extend fully through the rib portion. 18. The method of claim 10 , wherein the seal is configured to prevent sparks from passing out of the cavity through the access opening. 19. The method of claim 10 , wherein the seal is configured to interface with fuel contained within the aircraft wing. 20. An aircraft wing, comprising: a skin panel; a composite rib; a metallic fitting coupling the composite rib to the skin panel, the metallic fitting comprising: a through hole receiving a fastener, the fastener coupling the metallic fitting to the composite rib; a bore receiving a bolt; a cavity intersecting the bore, the cavity having an access opening; a barrel nut located within the cavity, the barrel nut threadably engaging the bolt to couple the metallic fitting to the skin panel; and a seal located within the cavity, the seal closing the access opening. 21. The aircraft wing of claim 20 , wherein the seal interfaces with fuel contained within the aircraft wing. 22. The aircraft wing of claim 20 , wherein the seal prevents sparks from passing out of the cavity through the access opening. 23. The aircraft wing of claim 20 , wherein the through hole is orthogonal to the bore. 24. The aircraft wing of claim 20 , wherein the metallic fitting further comprises a plate portion and a rib portion extending away from the plate portion, and wherein the through hole is formed in the plate portion, the bore is formed in the rib portion, and the cavity is formed in the rib portion. 25. The aircraft wing of claim 24 , wherein the bore does not extend fully through the rib portion. 26. The aircraft wing of claim 24 , wherein the cavity does not extend fully through the rib portion.