Electrostrictive element

What is claimed is: 1. An electrostrictive element comprising: a dielectric film composed of an elastomer; a film electrode formed inside a peripheral edge of at least one surface of the dielectric film, the film electrode being capable of expanding and contracting so as to follow expansion and contraction of the dielectric film; and a frame to keep the dielectric film in an expansion state, wherein the film electrode comprises a portion having a hole portion and a lower conductivity than other portion of the film electrode, at a portion of the dielectric film, the portion of the dielectric film being a portion to be subjected to a greater total stress of a mechanical stress and an electrical stress than other portion of the dielectric film. 2. The electrostrictive element according to claim 1 , wherein the portion of the dielectric film to be subjected to the greater total stress than the other portion of the dielectric film is a portion close to an edge portion of the film electrode. 3. The electrostrictive element according to claim 1 , wherein the hole portion is a slit-shaped hole portion or a dot-shaped hole portion. 4. The electrostrictive element according to claim 3 , wherein the hole portion is the slit-shaped hole portion, and is provided radially, concentrically, or spirally with respect to a center of the film electrode. 5. The electrostrictive element according to claim 1 , wherein the film electrode is formed by a conductive paste or carbonaceous material capable of expanding and contracting. 6. An electrostrictive element comprising: a dielectric film composed of an elastomer, wherein the dielectric film includes at least a first dielectric film and a second dielectric film; a first film electrode, a second film electrode, and a third film electrode, wherein the first film electrode, the second film electrode, and the third film electrode are all formed inside a peripheral edge of at least one surface of the dielectric film, and the first film electrode, the second film electrode, and the third film electrode are all capable of expanding and contracting so as to follow expansion and contraction of the dielectric film; and a frame to keep the dielectric film in an expansion state, wherein: the first film electrode is sandwiched by the first dielectric film and the second dielectric film, and the first film electrode has a uniform conductivity; the second film electrode is formed on an opposite surface of the first dielectric film to the first film electrode, the second film electrode comprises a second film electrode portion having a second film electrode hole portion and lower conductivity than other portion of the second film electrode at a portion of the first film electrode, the portion of the first film electrode being a portion to be subjected to a greater total stress of a mechanical stress and an electrical stress than other portion of the first film electrode; and the third film electrode is formed on an opposite surface of the second dielectric film to the first film electrode, the third film electrode comprises a third film electrode portion having a third film electrode hole portion and lower conductivity than other portion of the third film electrode at a position different from the second film electrode portion. 7. An electrostrictive element comprising: a dielectric film composed of an elastomer; a film electrode formed inside a peripheral edge of at least one surface of the dielectric film, the film electrode being capable of expanding and contracting so as to follow expansion and contraction of the dielectric film; and a frame to keep the dielectric film in an expansion state, wherein the film electrode comprises a portion having a higher rigidity than other portion of the film electrode, at a portion of the dielectric film, the portion of the dielectric film being a portion to be subjected to a greater total stress of a mechanical stress and an electrical stress than other portion of the dielectric film. 8. The electrostrictive element according to claim 7 , wherein the portion of the film electrode having the higher rigidity than the other portion of the film electrode is formed by a high-rigidity elastomer or resin layer arranged by coating a peripheral edge portion of the film electrode.