The work develops an insect-scale soft robot capable of fast directional locomotion actuated by itself spring-like body composed of shape memory alloy wires (SMAWs)-based composite. The soft composite is fabricated… Click to show full abstract
The work develops an insect-scale soft robot capable of fast directional locomotion actuated by itself spring-like body composed of shape memory alloy wires (SMAWs)-based composite. The soft composite is fabricated integrating polydimethylsiloxane (PDMS) matrix, 3D printed acrylonitrile-butadiene-styrene (ABS) substrate, and parallel multi-SMAWs with the diameter of 0.075 mm. Since it can implant the thermal-induced SMAW deformation and rapidly cause the elastic recovery feature of ABS resin material, the soft composite can act as the insect-scale robotic actuator to imitate the longitudinal muscle. The designed structure can convert the repetitive contraction-stretch behavior of the embedded SMAWs to the bending-expanding deformation of the robotic soft body, which forms the robotic different gaits. With the excitation of pulse-width modulation (PWM) voltages with various frequencies, different characteristics of the designed robot are compared. The experimental results validate that the designed soft robot can reach a movement speed of
               
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