Microballoon-facilitated tunable porosity of elastomeric shape memory polymer composites

What is claimed is: 1 . A product, comprising: a porous three-dimensional printed structure having printed filaments arranged in a geometric pattern, the printed filaments comprising a material having a plurality of gas-filled microballoons, wherein the printed structure has an intra-filament porosity in at least one printed filament thereof, the intra-filament porosity being defined by a compositional gradient and/or a concentration gradient of the gas-filled microballoons in the material, wherein the compositional gradient of the material comprises a first composition of the gas-filled microballoons relative to a second composition of the gas-filled microballoons, wherein the gas-filled microballoons of the first composition have a first glass transition temperature and the gas-filled microballoons of the second composition have a second glass transition temperature different than the first glass transition temperature. 2 . The product as recited in claim 1 , wherein the printed structure has elastomeric shape memory behavior. 3 . The product as recited in claim 1 , wherein the printed structure, following recovery from compression resulting in at least a 60% reduction in original thickness, has at least 97% structure porosity compared to a porosity of the structure before compression. 4 . The product as recited in claim 3 , wherein the printed structure comprises pre-defined zones of porosity, wherein a first zone of porosity has at least 97% elastomeric shape memory behavior compared to an original shape of the structure, wherein a second zone of porosity has a different elastomeric shape memory behavior than the first zone of porosity. 5 . The product as recited in claim 1 , wherein the intra-filament porosity is in a range of greater than 0 vol. % to about 98 vol. % relative to a total volume of the material. 6 . A product, comprising: a porous three-dimensional printed structure having printed filaments arranged in a geometric pattern, the printed filaments comprising a material having a plurality of gas-filled microballoons, wherein the printed structure has an intra-filament porosity in at least one printed filament thereof, the intra-filament porosity being defined by a compositional gradient and/or a concentration gradient of the gas-filled microballoons in the material, wherein the printed structure has a pre-defined gradient of porosity resulting from the arrangement of the printed filaments, and wherein at least some of the printed filaments have a gradient of intra-filament porosity. 7 . A product, comprising: a porous three-dimensional printed structure having printed filaments arranged in a geometric pattern, the printed filaments comprising a material having a plurality of gas-filled microballoons, wherein the printed structure has hierarchical porosity comprising: an inter-filament porosity defined by the arrangement of the printed filaments, and an intra-filament porosity of the material, the intra-filament porosity defined by the plurality of gas-filled microballoons in the material of the printed filaments, wherein at least some of the printed filaments are arranged about parallel to each other, the at least some of the printed filaments having a shape corresponding to a periodic wave pattern.