Elastomers are indispensable materials due to their flexible, stretchable, and elastic nature. However, the polymer network structure constituting an elastomer is generally inhomogeneous, limiting the performance of the material. Here,… Click to show full abstract
Elastomers are indispensable materials due to their flexible, stretchable, and elastic nature. However, the polymer network structure constituting an elastomer is generally inhomogeneous, limiting the performance of the material. Here, a highly stretchable elastomer with unprecedented strain‐stiffening capability is developed based on a highly homogeneous network structure enabled by a module assembly strategy. The elastomer is synthesized by efficient end‐linking of a star‐shaped aliphatic polyester precursor with a narrow molecular‐weight distribution. The resulting product shows high strength (≈26 MPa) and remarkable stretchability (stretch ratio at break ≈1900%), as well as good fatigue resistance and notch insensitivity. Moreover, it shows extraordinary strain‐stiffening capability (>2000‐fold increase in the apparent stiffness) that exceeds the performance of any existing soft material. These unique properties are due to strain‐induced ordering of the polymer chains in a uniformly stretched network, as revealed by in situ X‐ray scattering analyses. The utility of this great strain‐stiffening capability is demonstrated by realizing a simple variable stiffness actuator for soft robotics.
               
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