Electrical insulation systems and insulated components for electrical machine

The invention claimed is: 1. An electrical insulating system, comprising: (a) an electrically insulating mica paper; and (b) a fiber glass disposed on a first surface of the electrically insulating mica paper, wherein the electrically insulating mica paper and the fiber glass are impregnated with a curable binder resin composition, wherein the curable binder resin composition comprises: 21 weight percent to 73 weight percent of a solid or semi-solid epoxy resin having an epoxide functionality of 2.5; 0.8 weight percent to 49 weight percent of a liquid epoxy resin having an epoxide functionality of 2; 4 weight percent to 15 weight percent of a bisphenol A-formaldehyde novolac; a metal acetylacetonate catalyst; and 2.5 weight percent to 15 weight percent of a toughener selected from the group consisting of polyethersulfone, methylmethacrylate butadiene styrene, and a combination thereof. 2. The electrical insulating system of claim 1 , wherein concentration of the toughener ranges from 5 weight percent to 15 weight percent of the curable binder resin composition. 3. The electrical insulating system of claim 1 , wherein the toughener is polyethersulfone. 4. The electrical insulating system of claim 3 , wherein concentration of the polyethersulfone ranges from 5 weight percent to 10 weight percent of the curable binder resin composition. 5. The electrical insulating system of claim 1 , wherein the toughener is methylmethacrylate butadiene styrene, and wherein concentration of methylmethacrylate butadiene styrene ranges from 10 weight percent to 15 weight percent of the curable binder resin composition. 6. The electrical insulating system of claim 1 , wherein the solid or semi-solid epoxy resin is an epoxy novolac resin, and wherein concentration of the epoxy novolac resin ranges from 53 weight percent to 61 weight percent of the curable binder resin composition. 7. The electrical insulating system of claim 6 , wherein the liquid epoxy resin is a bisphenol A-based epoxy resin, and wherein concentration of the bisphenol A-based epoxy resin ranges from 23 weight percent to 26 weight percent of the curable binder resin composition. 8. The electrical insulating system of claim 7 , wherein the metal acetylacetonate catalyst is aluminum acetylacetonate, and wherein concentration of the aluminum acetylacetonate is 0.02 weight percent of the curable binder resin composition. 9. The electrical insulating system of claim 1 further comprising polyethylene terephthalate layer disposed on a second surface of the electrically insulating mica paper. 10. A stator bar comprising: a plurality of conductors arranged in a group; and a groundwall insulation surrounding the group of the plurality of conductors, wherein the groundwall insulation comprises one or more layers of an electrically insulating mica tape, the electrically insulating mica tape comprising: (a) an electrically insulating mica paper; and (b) a fiber glass disposed on a first surface of the electrically insulating mica paper, wherein the electrically insulating mica paper is bound to the fiber glass via a cured form of a curable binder resin composition, wherein the curable binder resin composition comprises: 21 weight percent to 73 weight percent of a solid or semi-solid epoxy resin having an epoxide functionality of 2.5; 0.8 weight percent to 49 weight percent of a liquid epoxy resin having an epoxide functionality of 2; 4 weight percent to 15 weight percent of a bisphenol A-formaldehyde novolac; a metal acetylacetonate catalyst; and 2.5 weight percent to 15 weight percent of a toughener selected from the group consisting of polyethersulfone, methylmethacrylate butadiene styrene, and a combination thereof. 11. The stator bar of claim 10 , wherein concentration of the toughener ranges from 5 weight percent to 10 weight percent of the curable binder resin composition. 12. The stator bar of claim 11 , wherein the toughener is polyethersulfone. 13. The stator bar of claim 10 , wherein the toughener is methylmethacrylate butadiene styrene, and wherein concentration of the methylmethacrylate butadiene styrene ranges from 11 weight percent to 15 weight percent of the curable binder resin composition. 14. The stator bar of claim 10 , wherein the solid or semi-solid epoxy resin is an epoxy novolac resin, and wherein concentration of the epoxy novolac resin ranges from 53 weight percent to 61 weight percent of the curable binder resin composition. 15. The stator bar of claim 14 , wherein the liquid epoxy resin is a bisphenol A-based epoxy resin, and wherein concentration of the bisphenol A-based epoxy resin ranges from 23 weight percent to 26 weight percent of the curable binder resin composition. 16. The stator bar of claim 10 , wherein the groundwall insulation has a flexural strain to failure in a range from 0.4% to 0.9%. 17. The stator bar of claim 10 , wherein the stator bar has a heat dissipation factor in a range from 3% to 6% at 155° C. 18. The stator bar of claim 10 , wherein the stator bar has an electrical breakdown strength in a range from 500 VPM to 2000 VPM. 19. The stator bar of claim 10 , wherein the groundwall insulation comprises 12 to 20 layers of electrically insulating mica tape. 20. A stator bar comprising: a plurality of conductors arranged in a group; and a groundwall insulation surrounding the group of the plurality of conductors, wherein the groundwall insulation comprises one or more layers of an electrically insulating mica tape, the electrically insulating mica tape comprising: (a) an electrically insulating mica paper; and (b) a fiber glass disposed on a first surface of the electrically insulating mica paper; wherein the electrically insulating mica paper is bound to the fiber glass via a cured form of a curable binder resin composition, wherein the curable binder resin composition comprises: 53 weight percent to 61 weight percent of a solid or semi-solid epoxy resin having an epoxide functionality of 2.5; 23 weight percent to 26 weight percent of a liquid epoxy resin having an epoxide functionality of 2; 4 weight percent to 15 weight percent of a bisphenol A-formaldehyde novolac; a metal acetylacetonate catalyst; and 2.5 weight percent to 15 weight percent of a toughener selected from the group consisting of polyethersulfone, methylmethacrylate butadiene styrene, and a combination thereof.