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A microstructured reconfigurable or morphing composite material with controlled anisotropic deformation properties. The composite material provides highly controlled deformation and stiffness properties. Microscopic three dimensional structures are included in the composite material to control its d

A microstructured reconfigurable or morphing composite material with controlled anisotropic deformation properties. The composite material provides highly controlled deformation and stiffness properties. Microscopic three dimensional structures are included in the composite material to control its deformation kinematics and stiffness properties. The composite material has highly segregated in-plane and out-of-plane stiffness properties.

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1. A microstructured composite material with controlled deformation comprising: a matrix material, the matrix material being a variable elastic modulus material selected from the group consisting of shape memory polymer, phase changing metal, wax, ice, electrorheological fluid, magnetorheological fl

1. A microstructured composite material with controlled deformation comprising: a matrix material, the matrix material being a variable elastic modulus material selected from the group consisting of shape memory polymer, phase changing metal, wax, ice, electrorheological fluid, magnetorheological fluid, electrostrictive material, magnetostrictive material, ferromagnetic magnetostrictive material, magnetorheological elastomer, electrorheological elastomer, and liquid crystal elastomer;at least three reinforcement layers embedded in the matrix material, each of the at least three reinforcement layers comprising a plurality of flat coplanar platelets arranged along a plane of the matrix material, the at least three reinforcement layers comprising a first reinforcement layer comprising a plurality of flat coplanar first platelets arranged along a first plane of the matrix material;a plurality of flat connecting members having a flat surface extending in a thickness direction crossing the first plane and interconnecting the plurality of flat coplanar first platelets along the first plane of the matrix material, each of the flat connecting members connecting a corresponding two of the flat coplanar first platelets and having a greater height in the thickness direction than that of the corresponding two of the flat coplanar first platelets; andmeans for mechanically coupling stress between adjacent layers of the at least three reinforcement layers to mitigate out-of-plane deformation of the matrix material while allowing deformation of the matrix material along the first plane. 2. The microstructured composite material with controlled deformation of claim 1, further comprising: a reinforcement member on at least one of the at least three reinforcement layers,wherein the reinforcement member has an elongated shape and extends in a direction substantially parallel to the at least one of the at least three reinforcement layers. 3. The microstructured composite material with controlled deformation of claim 1, wherein the plurality of flat coplanar first platelets are arranged in a cellular pattern. 4. The microstructured composite material with controlled deformation of claim 1, wherein the plurality of flat coplanar first platelets are arranged in a lattice pattern. 5. The microstructured composite material with controlled deformation of claim 1, wherein each of the plurality of flat connecting members has a flat straight section. 6. A microstructured composite material with controlled deformation comprising: a matrix material;at least two reinforcement layers embedded in and connected through their thickness by the matrix material, each of the at least two reinforcement layers comprising at least two platelets arranged along a plane of the matrix material, the at least two reinforcement layers comprising a first reinforcement layer and a second reinforcement layer adjacent to the first reinforcement layer, the first reinforcement layer comprising at least two first platelets arranged along a first plane of the matrix material, the second reinforcement layer comprising at least two second platelets arranged along a second plane of the matrix material;a first connecting member extending along a first path in the first plane between and connecting to a corresponding two of the at least two first platelets, and further extending from the first path in a direction crossing the first plane above and below the corresponding two of the at least two first platelets; anda second connecting member extending along a second path in the second plane between and connecting to a corresponding two of the at least two second platelets, and further extending from the second path in a direction crossing the second plane above and below the corresponding two of the at least two second platelets,wherein the second connecting member crosses and interlocks with the first connecting member to mitigate translation between the first connecting member and the second connecting member while allowing rotation between the first connecting member along the first plane and the second connecting member along the second plane. 7. The microstructured composite material with controlled deformation of claim 6, wherein the matrix material is a variable elastic modulus material. 8. The microstructured composite material with controlled deformation of claim 7, wherein the matrix material is from the group consisting of shape memory polymer, phase changing metal, wax, ice, electrorheological fluid, magnetorheological fluid, electrostrictive material, magnetostrictive material, ferromagnetic magnetostrictive material, magnetorheological elastomer, electrorheological elastomer, and liquid crystal elastomer.