Jumping Tensegrity Robot Based on Torsionally Prestrained SMA Springs.
Yoon Seop ChungJi-Hyeong LeeJae Hyuck JangHyouk Ryeol ChoiHugo RodriguePublished in: ACS applied materials & interfaces (2019)
This paper introduces the addition of torsional prestrain into the manufacturing process of shape memory alloy (SMA) springs to form torsionally prestrained SMA springs. These springs have a better performance at the same power input for the same loads and same coil dimensions as regular SMA springs. A modified thermoconstitutive model was presented that can predict the behavior of the actuator based on the amount of torsional prestrain added into the manufacturing process, and a simple two-state model is used to predict its actuation stroke. These improved actuators were used in the development of a tensegrity robots capable of fast rolling motions and jumping both vertically and horizontally. This robot is capable of rolling at 0.14 BL/s (body length per second) and can jump up to nearly a full body length.