Actuator with static activated position

What is claimed is: 1. An actuator comprising: a membrane comprising: a first conductive portion comprising a conductive material and configured to produce an electric field in response to a first electrical input; a second conductive portion comprising a conductive material, the second conductive portion being positioned opposite the first conductive portion and configured to attract to the first conductive portion in response to the first electrical input; an insulating portion comprising an elastomer configured to electrically isolate the first conductive portion from the second conductive portion, the insulating portion defining an interior surface and an exterior surface of the membrane; a compartment defined by the membrane and having a dielectric fluid, the compartment being configured to deliver a hydraulic force to the membrane in response to adherence of the first conductive portion and the second conductive portion; and an electroactive valve positioned within the compartment and configured to maintain the hydraulic force on the membrane and release the hydraulic force upon receiving a second electrical input, the first conducting portion and the second conducting portion being positioned opposite each other across the compartment. 2. The actuator of claim 1 , wherein the insulating portion contains one or more polymers, the polymers being configured to control direction of elasticity. 3. The actuator of claim 1 , wherein the compartment comprises a central region and an edge region, the first conducting portion and the second conducting portion being positioned in the central region. 4. The actuator of claim 1 wherein the electroactive valve comprises an electro-responsive element positioned in the compartment, the electro-responsive element being in connection with a barrier. 5. The actuator of claim 4 , wherein the electro-responsive element comprises an electroactive polymer. 6. An actuator comprising: a fluid-impermeable membrane; and a compartment defined by the fluid-impermeable membrane, the compartment having: a central region; an edge region extending from and fluidly connected with the central region; a dielectric fluid; and an electroactive valve between the central region and the edge region, the electroactive valve being configured to selectively permit movement of the dielectric fluid between the central region and the edge region, the fluid-impermeable membrane including a first fluid-impermeable membrane portion and a second fluid-impermeable membrane portion, the first and second fluid-impermeable membrane portions each including: an internal insulating portion defining at least a portion of the compartment; an external insulating portion defining an exterior surface of the fluid-impermeable membrane; and a conducting portion located between the internal insulating portion and the external insulating portion, the conducting portion of the first fluid-impermeable membrane portion and the conducting portion of the second fluid-impermeable membrane portion being positioned opposite each other. 7. The actuator of claim 6 , wherein the internal insulating portion of at least one of the first fluid-impermeable membrane portion and the second fluid-impermeable membrane portion contains one or more polymers, and wherein the polymers are configured to control direction of elasticity. 8. The actuator of claim 6 , wherein the conducting portion of at least one of the first fluid-impermeable membrane portion and the second fluid-impermeable membrane portion includes a plurality of conducting portions. 9. The actuator of claim 8 , wherein the plurality of conducting portions are positioned in the central region. 10. The actuator of claim 6 , wherein the electroactive valve comprises an electro-responsive element positioned in the compartment, the electro-responsive element being in connection with a barrier. 11. The actuator of claim 10 , wherein the electro-responsive element is an electroactive polymer. 12. The actuator of claim 10 , wherein the electro-responsive element includes a plurality of independently controllable subsections. 13. The actuator of claim 6 , wherein the first fluid-impermeable membrane portion and the second fluid-impermeable membrane portion are a unitary structure. 14. An actuator comprising: a fluid-impermeable membrane; and a compartment defined by an interior surface of the fluid-impermeable membrane, the compartment having: a central region; an edge region extending from and fluidly connected with the central region; a dielectric fluid; and an electroactive valve between the central region and the edge region, the fluid-impermeable membrane including: an insulating portion defining the interior surface and an exterior surface of the fluid-impermeable membrane, the interior surface defining at least a portion of the compartment, the insulating portion comprising an insulating elastomer; a first conducting portion positioned within the insulating portion, the first conducting portion comprising a conductive material; and a second conducting portion positioned within the insulating portion, the second conducting portion comprising a conductive material; the first conducting portion and the second conducting portion being positioned opposite each other across the compartment. 15. The actuator of claim 14 , wherein the insulating portion contains one or more polymers, the polymers being configured to control direction of elasticity. 16. The actuator of claim 14 , wherein the first conducting portion and the second conducting portion are positioned in the central region. 17. The actuator of claim 14 , wherein the electroactive valve comprises an electro-responsive element positioned in the compartment, the electro-responsive element being in connection with a barrier. 18. The actuator of claim 17 , wherein the electro-responsive element is a multi-leaf valve. 19. The actuator of claim 17 , wherein the electro-responsive element comprises an electroactive polymer. 20. The actuator of claim 17 , wherein the electro-responsive element includes a plurality of independently controllable subsections.