Electric field activated shape memory polymer composite

The invention claimed is: 1. An electrically activated shape memory polymer composite capable of thermal shape reformation from a temporary shape to an original permanent shape using electric power to heat the composite through its matrix glass transition temperature, said composite comprising: (a) an adaptable polymer matrix component comprising a diglycidyl ether resin and at least one curing agent, wherein the adaptable polymer matrix component has a glass transition temperature from about 60° C. to about 170° C.; (b) at least one substantially well-dispersed conductive nano-filler component comprising at least one nano-filler selected from the group consisting of reduced graphene oxide sheets, carbon nanotubes, and combinations thereof, wherein the amount of the at least one nano-filler is about 1 to about 5 wt % of the adaptable polymer matrix component; (c) at least one elastic laminated layer comprising a sheet selected from the group consisting of a silicone elastomer, an elastic metal alloy, and combinations thereof; and (d) wherein the at least one curing agent is selected from the group consisting of benzhydrylamine 3,4′-oxydianiline (3,4′-ODA), and combinations thereof; wherein the composite is characterized as having the nano-filler dispersed throughout the adaptable polymer matrix component, and the adaptable polymer matrix having at least one external side contacting the elastic laminated layer, and wherein the elastic laminated layer stores elastic energy when the composite is in the temporary shape to thereby reduce a reformation time for transitioning from the temporary shape to the original permanent shape. 2. The electrically activated shape memory polymer composite of claim 1 , wherein the adaptable polymer matrix component comprises bisphenol A diglycidyl ether (2,2-Bis(4-glycidyloxyphenyl)propane). 3. The electrically activated shape memory polymer composite of claim 1 , wherein the nano-filler comprises reduced graphene oxide sheets. 4. The electrically activated shape memory polymer composite of claim 3 , wherein the reduced graphene oxide sheets are characterized as entirely dispersed and having a wrinkled morphology that prevents re-aggregation of single-sheets. 5. The electrically activated shape memory polymer composite of claim 4 , wherein the reduced graphene oxide sheets are present in an amount of about 2 wt % of the total adaptable polymer matrix component. 6. The electrically activated shape memory polymer composite of claim 1 , further characterized with a variable stiffness transition point at about 15 kV/m of applied electrical energy to the total composite less any of the elastic layer(s). 7. The electrically activated shape memory polymer composite of claim 1 , wherein the composite is further characterized as subject to electric power using AC at a frequency between about 0.1 Hz to about 1 kHz. 8. The electrically activated shape memory polymer composite of claim 1 , wherein the electric power applied causes both loss heating generated by dielectric losses under an applied AC electric field and joule heating generated by electric currents. 9. An electrically activated shape memory polymer composite capable of thermal shape reformation from a temporary shape to an original permanent shape using electric power to heat the composite through its matrix glass transition temperature, said composite comprising: (a) an adaptable polymer matrix component comprising a diglycidyl ether resin and at least one curing agent, wherein the adaptable polymer matrix component has a glass transition temperature from about 60° C. to about 170° C.; (b) at least one substantially well-dispersed conductive nano-filler component comprising at least one nano-filler selected from the group consisting of reduced graphene oxide sheets, carbon nanotubes, and combinations thereof; (c) at least one elastic laminated layer comprising a sheet selected from the group consisting of a silicone elastomer, and elastic metal alloy, and combinations thereof; and (d) wherein the at least one curing agent is selected from the group consisting of benzhydrylamine 3,4′-oxydianiline (3,4′-ODA), and combinations thereof; wherein the adaptable polymer matrix has at least one external side contacting the elastic laminated layer, wherein the elastic laminated layer stores elastic energy when the composite is in the temporary shape to thereby reduce the reformation time for transitioning from the temporary shape to the original permanent shape. 10. The electrically activated shape memory polymer composite of claim 9 , wherein the adaptable polymer matrix component comprises bisphenol A diglycidyl ether (2,2-Bis(4-glycidyloxyphenyl)propane). 11. The electrically activated shape memory polymer composite of claim 10 , wherein the adaptable polymer matrix component has a glass transition temperature of about 96° C. 12. The electrically activated shape memory polymer composite of claim 9 , wherein the nano-filler comprises reduced graphene oxide sheets. 13. The electrically activated shape memory polymer composite of claim 12 , wherein the reduced graphene oxide sheets are characterized as entirely dispersed and having a wrinkled morphology that prevents re-aggregation of single-sheets.