Shape memory alloy active spars for blade twist

What is claimed is: 1. A hollow structural spar comprising: a first wide side; a second wide side, opposite of the first wide side; a first narrow side, connecting the first wide side and the second wide side; a second narrow side, opposite of the first narrow side and further connecting the first wide side and the second wide side; a plurality of structural strips, comprising a first U-shaped structural strip and a second U-shaped structural strip, wherein the first U-shaped structural strip forms the first wide side of the hollow structural spar, a first portion of the first narrow side of the hollow structural spar, and a first portion of the second narrow side of the hollow structural spar, and wherein the second U-shaped structural strip forms the second wide side of the hollow structural spar, a second portion of the first narrow side of the hollow structural spar, and a second portion of the second narrow side of the hollow structural spar; a first shape memory alloy strip, comprising a shape memory alloy, disposed between and interconnecting the first U-shaped structural strip and the second U-shaped structural strip, and forming a third portion of the first narrow side of the hollow structural spar, disposed between the first portion of the first narrow side and the second portion of the first narrow side; a second shape memory alloy strip, comprising a shape memory alloy, disposed between and interconnecting the first U-shaped structural strip and the second U-shaped structural strip, and forming a third portion of the second narrow side of the hollow structural spar, disposed between the first portion of the second narrow side and the second portion of the second narrow side; and a temperature control system, configured to independently control temperatures of the first shape memory alloy strip and the second shape memory alloy strip and comprising a first heating element, directly interfacing the first shape memory alloy strip, and a second heating element, directly interfacing the second shape memory alloy strip. 2. The hollow structural spar accordance with claim 1 , wherein the shape memory alloy comprises at least one of nickel-titanium based alloys, nickel-titanium-platinum based alloys, indium-titanium based alloys, nickel-aluminum based alloys, nickel-aluminum-platinum based alloys, nickel-gallium based alloys, copper based alloys, gold-cadmium based alloys, iron-platinum based alloys, iron-palladium based alloys, silver-cadmium based alloys, indium-cadmium based alloys, manganese-copper based alloys, ruthenium-niobium based alloys, or ruthenium-tantalum based alloys. 3. The hollow structural spar in accordance with claim 1 , wherein at least one of the first shape memory alloy strip or the second shape memory alloy strip is trained under shear. 4. The hollow structural spar in accordance with claim 1 , wherein said hollow structural spar is positioned in one of a rotor blade, an aircraft wing, or an aircraft empennage. 5. The hollow structural spar in accordance with claim 1 , wherein each of the first shape memory alloy strip and the second shape memory alloy strip is in a martensite phase, at a first temperature, and in an austenite phase, at a second temperature greater than said first temperature, such that changing from the martensite phase to the austenite phase of each of the first shape memory alloy strip and the second shape memory alloy strip causes the hollow structural spar to twist or bend from a non-twisted shape to a twisted shape. 6. The hollow structural spar in accordance with claim 5 , wherein a twist angle between the non-twisted shape to the twisted shape is 4′. 7. The hollow structural spar in accordance with claim 5 , wherein the hollow structural spar is returned to the non-twisted shape when each of the first shape memory alloy strip and the second shape memory alloy strip changes from the austenite phase to the martensite phase. 8. The hollow structural spar in accordance with claim 1 , wherein the first U-shaped structural strip, the second U-shaped structural strip, the first shape memory alloy strip, and second the shape memory alloy strip enclose a cavity of the hollow structural spar, the cavity being empty and free from any materials. 9. The hollow structural spar in accordance with claim 8 , wherein the first shape memory alloy strip and second the shape memory alloy strip are exposed within the cavity. 10. The hollow structural spar in accordance with claim 8 , wherein the first shape memory alloy strip and second the shape memory alloy strip are positioned on opposite sides of the cavity. 11. The hollow structural spar in accordance with claim 8 , wherein the cavity has a rectangular cross-section. 12. The hollow structural spar in accordance with claim 1 , wherein each of the first heating element and the second heating element is a resistive wire, supported with a flexible film. 13. The hollow structural spar in accordance with claim 12 , wherein the resistive wire of each of the first heating element and the second heating element is a nichrome ribbon. 14. The hollow structural spar in accordance with claim 1 , further comprising a deflection monitoring apparatus, monitoring deflection of the hollow structural spar and controlling operation of the first heating element and the second heating element. 15. The hollow structural spar in accordance with claim 1 , wherein a width-to-height ratio of the hollow structural spar is 3. 16. The hollow structural spar in accordance with claim 1 , wherein a length-to-width ratio of the hollow structural spar is 4. 17. A helicopter rotor blade comprising: a root, for connecting to a hub of a helicopter; a tip, opposite of the root along a length of the helicopter rotor blade; a hollow structural spar, forming an edge of the helicopter rotor blade and extending along the length of the helicopter rotor blade between the root and the tip, and comprising: a first wide side, a second wide side, opposite of the first wide side, a first narrow side, connecting the first wide side and the second wide side, a second narrow side, opposite of the first narrow side and further connecting the first wide side and the second wide side, a plurality of structural strips, comprising a first U-shaped structural strip and a second U-shaped structural strip, wherein the first U-shaped structural strip forms the first wide side of the hollow structural spar, a first portion of the first narrow side of the hollow structural spar, and a first portion of the second narrow side of the hollow structural spar, and wherein the second U-shaped structural strip forms the second wide side of the hollow structural spar, a second portion of the first narrow side of the hollow structural spar, and a second portion of the second narrow side of the hollow structural spar, a first shape memory alloy strip, comprising a shape memory alloy, disposed between and interconnecting the first U-shaped structural strip and the second U-shaped structural strip, and forming a third portion of the first narrow side of the hollow structural spar, disposed between the first portion of the first narrow side and the second portion of the first narrow side, a second shape memory alloy strip, comprising a shape memory alloy, disposed between and interconnecting the first U-shaped structural strip and the second U-shaped structural strip, and forming a third portion of the second narrow side of the hollow structural spar, disposed between the first portion of the second narrow side and the second portion of the second