Conductive device intended to be mounted on the surface of parts made of composite materials

The invention claimed is: 1. A conducting device to install an electrical link on a surface of a composite material structure, comprising: an interface layer exhibiting a face by which the conductive device is fixed to the surface of the composite material structure; a conducting metallic element located on the face of the interface layer opposite to a face in contact with the surface of the composite material structure, said conducting metallic element being configured to undergo compressive and extensile stresses without damage; a protective layer configured to protect the conducting metallic element from attacks of an exterior medium surrounding the composite material structure; wherein the interface layer is made of a composite material and the conducting device fabricated and mounted on the composite material structure is a semi-finished flexible product, a fabrication of the conducting device comprises a pre-polymerization operation such that a total polymerization of the conducting device is performed post-mounting of conducting device on the composite material structure; and wherein said conducting metallic element is a metallic braid. 2. The conducting device as claimed in claim 1 , wherein the protective layer comprises an envelope covering a portion of the conducting device in contact with the exterior medium, said envelope defining with the interface layer, an internal space in which the conducting metallic element is housed. 3. The conducting device as claimed in claim 1 , wherein the protective layer is made of a composite material to exhibit a deformation visible by an observer in a zone of a low-energy impact. 4. The conducting device as claimed claim 1 , wherein the conducting element is a set of superposed leaves of foil material. 5. A conducting device to install an electrical link on a surface of a composite material structure, comprising: an interface layer exhibiting a face by which the conductive device is fixed to the surface of the composite material structure; a conducting metallic element located on the face of the interface layer opposite to a face in contact with the surface of the composite material structure, said conducting metallic element being configured to undergo compressive and extensile stresses without damage; a protective layer configured to protect the conducting metallic element from attacks of an exterior medium surrounding the composite material structure; wherein the interface layer is made of an elastomer and the conducting device fabricated and mounted on the composite material structure is a semi-finished flexible product, a fabrication of the conducting device comprises a vulcanization operation such that a total polymerization of the conducting device is performed post-mounting of conducting device on the composite material structure; and wherein the conducting metallic element is a metallic braid. 6. The conducting device as claimed in claim 5 , wherein the protective layer comprises an envelope covering a portion of the conducting device in contact with the exterior medium, said envelope defining with the interface layer, an internal space in which the conducting metallic element is housed. 7. The conducting device as claimed in claim 5 , wherein the protective layer is made of a composite material to exhibit a deformation visible by an observer in a zone of a low-energy impact. 8. The conducting device as claimed claim 5 , wherein the conducting element is a set of superposed leaves of foil material.