Spacecraft with shape memory polymer deployment mechanism

What is claimed is: 1. A spacecraft comprising: a fuselage; a deployable part that is deployable from the fuselage; and an actuator that is used to selectively deploy the deployable part; wherein the actuator includes: a shape memory polymer material; and a shape memory alloy material; wherein the shape memory polymer material includes a thinned portion that is configured as a pivot location; wherein the shape memory alloy material is directly attached to the shape memory polymer material at the thinned portion; and wherein heating of the shape memory polymer material and the shape memory alloy material deploys the deployable part by pivoting the deployable part relative to the fuselage at the thinned portion. 2. The spacecraft of claim 1 , wherein the actuator and a portion of the deployable part are integrated together to form a single continuous part. 3. The spacecraft of claim 1 , wherein the shape memory polymer material and a portion of the fuselage are integrated together to form a single continuous part. 4. The spacecraft of claim 1 , wherein the actuator is additively manufactured. 5. The spacecraft of claim 1 , wherein the shape memory polymer material includes a filler that enhances ultraviolet (UV) light absorption. 6. The spacecraft of claim 1 , further comprising a heat source that is operatively coupled to the shape memory polymer material and the shape memory alloy material. 7. The spacecraft of claim 1 , wherein the actuator includes an electrical power source for electrical heating the shape memory polymer material and the shape memory alloy material. 8. The spacecraft of claim 7 , wherein the shape memory polymer material includes a filler that enhances electrical conductivity. 9. The spacecraft of claim 7 , wherein the actuator includes an electrically conductive material on a surface of the shape memory polymer material, with the electrically conductive material electrically coupled to the electrical power source. 10. The spacecraft of claim 1 , wherein the deployable part includes one of an antenna, a solar panel, an optical cover, or a sunshade. 11. The spacecraft of claim 1 , wherein the shape memory alloy material and the shape memory polymer material change shape when heated to each provide a force to deploy the deployable part, and wherein the shape memory alloy material and the shape memory polymer material are respectively configured such that the force provided by the shape memory alloy material is greater than the force provided by the shape memory polymer material. 12. A method of deploying a satellite, the method comprising: separating the satellite from a mother craft; and deploying a deployable part of the satellite by heating a shape memory polymer material and a shape memory alloy material of an actuator; wherein the shape memory polymer material includes a thinned portion that is configured as a pivot location; wherein the shape memory alloy material is directly attached to the shape memory polymer material at the thinned portion; and wherein the heating of the shape memory polymer material and the shape memory alloy material changes the shape of the shape memory polymer material and the shape memory alloy material to deploy the deployable part by pivoting the deployable part relative to a fuselage of the satellite at the thinned portion. 13. The method of claim 12 , wherein the heating includes solar heating of the shape memory polymer material and the shape memory alloy material. 14. The method of claim 12 , wherein the heating includes electrically heating the shape memory polymer material and the shape memory alloy material.