Clearance measuring sensor with abradable electrode

The invention claimed is: 1. A capacitive sensor for measuring a clearance between an apex of vanes of a rotor and an inner surface of an abradable coating covering an inner surface of a turbomachine casing, said clearance measuring capacitive sensor comprising: a first electrode made of a material which is abradable so as to get worn upon contacting the apex of a vane, said material of said first electrode having a degree of wear substantially identical to a degree of wear of a material of said abradable coating, the material of the abradable coating covering the inner surface of the casing being conducting and the material of the first electrode being identical to that of the abradable coating, and an electrically insulating peripheral zone separating the first electrode from the abradable coating covering the inner surface of the casing, said electrically insulating peripheral zone made of an abradable material and having a length, along a direction perpendicular to said inner surface of the turbomachine casing, that is equal to a thickness of the abradable coating. 2. The clearance measuring capacitive sensor according to claim 1 , wherein the surface of the first electrode for contacting a vane apex is positioned aligned with the inner surface of the abradable coating. 3. The clearance measuring capacitive sensor according to claim 1 , wherein the material of the first electrode is graphite. 4. The clearance measuring capacitive sensor according to claim 1 , wherein the material of the electrically insulating peripheral zone is selected so as to get worn upon contacting the apex of the vane. 5. The clearance measuring capacitive sensor according to claim 4 , wherein the material of the electrically insulating peripheral zone has a degree of wear substantially identical to the degree of wear of the material of the abradable coating. 6. The clearance measuring capacitive sensor according to claim 1 , wherein a wear thickness of the first electrode is between 1 mm and 15 mm. 7. The clearance measuring capacitive sensor according to claim 1 , wherein the first electrode is circular and has a diameter between 1 mm and 15 mm. 8. A turbomachine fan or compressor or turbine including a capacitive sensor for measuring the clearance between an apex of vanes of a rotor and an inner surface of an abradable coating covering an inner surface of a turbomachine casing, wherein said clearance measuring capacitive sensor includes a first electrode made of a material which is abradable so as to get worn upon contacting the apex of the vane, said material of said first electrode having a degree of wear substantially identical to a degree of wear of a material of said abradable coating, the material of the abradable coating covering the inner surface of the casing being conducting and the material of the first electrode being identical to that of the abradable coating, and an electrically insulating peripheral zone separating the first electrode from the abradable coating covering the inner surface of the casing, said electrically insulating peripheral zone made of an abradable material and having a length, along a direction perpendicular to said inner surface of the turbomachine casing, that is equal to a thickness of the abradable coating. 9. The clearance measuring capacitive sensor according to claim 1 , wherein the electrically insulating peripheral zone surrounds the first electrode so as to isolate the first electrode from the abradable coating covering the inner surface of the casing. 10. The turbomachine fan or compressor or turbine according to claim 8 , wherein the electrically insulating peripheral zone surrounds the first electrode so as to isolate the first electrode from the abradable coating covering the inner surface of the casing.