Composite shape memory materials

Having described the invention, we claim: 1. A multilayered composite shape memory material comprising: a coextruded first polymer layer of a first polymer material and second polymer layer of a second polymer material being immiscible or partially miscible with the first polymer material such that the first and second polymer layers are distinct from one another, the first polymer material and the second polymer material having different melt temperatures and/or glass transition temperatures, the composite shape memory material after thermomechanical programming being capable of undergoing at least one temperature induced shape transition from a temporary shape to a permanent shape, the first polymer layer defining a hard segment of the shape memory material that provides the shape memory material with the permanent shape, and the second polymer layer defining a switching segment of the shape memory material that provides the shape memory material with the temporary shape, the first polymer layer extending parallel to the second polymer layer prior to and in response to the at least one temperature induced shape transition. 2. The material of claim 1 , comprising a plurality of alternating first polymer layers and second polymer layers. 3. The material of claim 2 , comprising at least 10 alternating first polymer layers and second polymer layers. 4. The material of claim 1 , the first polymer layer causing elastic recovery of the shape memory material from the temporary shape to the permanent shape upon heating of the shape memory material above a switching temperature of the second polymer layer. 5. The material of claim 1 , wherein the first polymer layer and the second polymer layer having average thicknesses of about 10 nm to about 50 μm. 6. The material of claim 1 , wherein the first polymer material and the second polymer material are not shape memory polymers. 7. The material of claim 1 , the first polymer material comprising polyurethane and the second polymer material comprising polycaprolactone. 8. The material of claim 1 , further comprising a third polymer layer of a third polymer material, the third polymer layer defining a second switching segment of the shape memory material that provides the shape memory material with a second temporary shape. 9. The material of claim 1 , wherein all the first and second polymer layers have shape recovery ratios greater than about 75%. 10. A multilayer shape memory material comprising: a co-extruded, multilayered mechanically deformable composite shape memory sheet; wherein the multilayered mechanically deformable composite shape memory sheet includes a plurality of at least two alternating layers (A) and (B) represented by formula (AB) x , where x=2 n , and n is in the range of from 1 to 18; wherein layer (A) is comprised of polymer component (a) and layer (B) is comprised of polymer component (b), wherein the polymer component (a) is immiscible or partially miscible with the polymer component (b) such that the alternating layers (A) and (B) are distinct from one another; and wherein the polymer components (a) and (b) have different glass transition and/or melt temperatures and the multilayer shape memory material after thermomechanical programming being capable of undergoing at least one temperature induced shape transition from a temporary shape into a permanent shape wherein at least one of the polymer component (a) or the polymer component (b) are not shape memory polymers, wherein the layer (A) extends parallel to the layer (B) prior to and in response to the at least one temperature induced shape transition. 11. The material of claim 10 , wherein the polymer layer (A) causes elastic recovery of the shape memory material from the temporary shape to the permanent shape upon heating of the shape memory material above a switching temperature of the polymer layers (B). 12. The material of claim 10 , wherein the polymer layers (A) and (B) have an average thicknesses of about 10 nm to about 50 μm. 13. The material of claim 10 , wherein the polymer component (a) and the polymer component (b) are not shape memory polymers. 14. The material of claim 10 , wherein the polymer component (a) is a polyurethane and the polymer component (b) is a polycaprolactone. 15. The material of claim 10 , further comprising a polymer layer (C) comprising polymer component (c), wherein the polymer layer (C) defines a second switching segment of the shape memory material that provides the shape memory material with a second temporary shape. 16. The material of claim 10 , wherein all the alternating layers have shape recovery ratios greater than about 75%.