Device for measuring the corrosion in a metallic structure or a structure comprising at least one metallic reinforcement, associated uses and method

What is claimed is: 1. Device for measuring corrosion in a metallic structure or in a structure comprising at least one metallic reinforcement, said device comprising: at least one assembly that comprises: a metallic solid part configured to be mechanically secured to the structure, the metallic solid part extending in a longitudinal direction between two ends and having a lateral external surface which connects the two ends, the metallic solid part being able to undergo stresses under the effect of corrosion and/or a thermomechanical variation; and transduction means comprising an optical fibre, the optical fibre being fixed on the lateral external surface of the metallic solid part in a prestressed state under compression so as to undergo stresses suffered by the metallic solid part, the transduction means being able to modify light propagating in the optical fibre under effect of stresses applied to the optical fibre, thereby providing varying spectral responses; and measurement and processing means for measuring and processing the spectral responses supplied by the transduction means of said at least one assembly, wherein the lateral external surface of the metallic solid part of the at least one assembly is partially covered with a layer of corrosion-protection material, thereby obtaining an alternation of first and second portions of the metallic solid part, arranged in the longitudinal direction of the metallic solid part, wherein the first portions are covered with the layer of corrosion-protection material while the second portions are not covered with the layer of corrosion-protection material, wherein there is at least one of the transduction means in each of the first and second portions, so that the transduction means associated with the first portions supply first spectral responses that translate application of a thermomechanical stress to the first portions, while the transduction means associated with the second portions supply second spectral responses that translate application of a thermomechanical stress and/or a corrosion to the second portions, and wherein the layer of corrosion-protection material comprises a groove in which the optical fibre is housed; and wherein the measurement and processing means further comprise means for comparing the first spectral responses supplied by the transduction means associated with the first portions and the second spectral responses supplied by the transduction means associated with the second portions, thereby establishing a corrosion profile of the metallic solid part. 2. Measuring device according to claim 1 , wherein, for at least one assembly, the groove in which the optical fibre is housed is formed in the lateral external surface of the metallic solid part, thereby being present in the second portions of the metallic solid part. 3. Measuring device according to claim 1 , wherein, for at least one assembly, amongst the first and second portions of the metallic solid part, first and second portions which are adjacent form a periodic pattern that is repeated in the longitudinal direction of the metallic solid part. 4. Measuring device according to claim 1 , wherein, for at least one assembly, a layer made from a thermoset material covers the optical fibre and compresses the optical fibre on the metallic solid part, thereby the optical fibre is configured in a prestressed state under compression. 5. Measuring device according to claim 1 , wherein, for at least one assembly, the metallic solid part of each assembly of the device comprises shoulders arranged in the longitudinal direction of the metallic solid part. 6. Measuring device according to claim 1 , wherein, when the structure is metallic, the metallic solid part of each assembly is made from a material that is similar, preferably identical, to the material of the structure and, when the structure is not metallic and comprises a metallic reinforcement, the metallic solid part of each assembly is made from a material that is similar, preferably identical, to the material of the metallic reinforcement. 7. Measuring device according to claim 1 , wherein, for at least one assembly, the transduction means are formed by an optical fibre or Bragg gratings photoinscribed in an optical fibre. 8. Measuring device according to claim 7 , wherein, when the transduction means are formed by Bragg gratings photoinscribed in an optical fibre fixed to a metallic solid part, each of the first and second portions of this metallic solid part is associated with at least one Bragg grating and the measuring and processing means comprise an optoelectronic measuring system for measuring Bragg wavelength characteristic of each of Bragg gratings photoinscribed in the optical fibre. 9. Measuring device according to claim 7 , wherein, when the transduction means consist of an optical fibre, the measuring and processing means apply a technique of measuring by OFDR Rayleigh reflectometry to this optical fibre, measuring resolution of this technique being chosen so as to be centimetric and less than the smallest of the first and second portions of the metallic solid part on which the optical fibre is fixed. 10. Measuring device according to claim 1 , comprising several assemblies, said assemblies being connected in parallel and/or in series. 11. A method for detecting corrosion in a structure comprising a main body, that is metallic or that is made from concrete and one or more metal reinforcements, wherein the method comprises: providing a device according to claim 1 , at least one of the metal reinforcements of the structure consisting of the metallic solid part of an assembly of the device, the metallic solid part having an alternation of first and second portions; and measuring and processing spectral responses supplied by transduction means of the assembly of the device; and comparing the spectral responses supplied by the transduction means associated with the first portions of the assembly and those supplied by the transduction means associated with the second portions of the assembly, in order to establish a corrosion profile of the metallic solid part, thereby detecting corrosion in the structure. 12. A method for providing a corrosion telltale for a metallic structure, wherein the method comprises: providing a device according to claim 1 , the metallic solid part having an alternation of first and second portions; and fixing the metallic solid part of each assembly of the device to the surface of the structure; and measuring and processing spectral responses supplied by transduction means of each assembly of the device; and comparing the spectral responses supplied by the transduction means associated with the first portions of each assembly and those supplied by the transduction means associated with the second portions of each assembly, in order to establish a corrosion profile of the metallic solid part, thereby providing a corrosion telltale for the metallic structure. 13. A method for detecting and locating the corrosion on a metal solid part of an assembly of the device as defined in claim 1 , the metal solid part being mechanically secured to a metallic structure or a structure comprising at least one metallic reinforcement, the method comprising, for each assembly, the following steps: measuring a change in amplitude of the spectral response over time for each of the first and second portions of the metallic solid part; determining a contribution of the corrosion to the change in the amplitude of the spectral response over time by comparison between the amplitudes of spectral responses of first and second adjacent portions; if the contribution of the