In this work, a new thermo-active variable impedance module is introduced, focusing on the shear-mode operation using Polycaprolactone (PCL) to enhance impedance control. The previous design relied on temperature-responsive properties of PCL but faced challenges in response times due to stress relaxation characteristics. By pivoting to a shear-mode operation after conducting comprehensive rheology analyses on PCL, the module offers faster response times and improved heat transfer efficiency. The key advantage lies in scalability and elimination of additional mechanical actuators for impedance adjustment, making it suitable for applications with space constraints and weight considerations. This development represents a significant advancement in designing variable impedance actuators for robotic and biomechanical applications.
The content discusses the importance of variable impedance actuators (VIA) in physical human-robot interactions, highlighting the need for dynamic modification of stiffness, damping ratios, and inertia to ensure safe operations. Various types of VIAs are explored, such as series elastic actuators (SEA), variable stiffness actuators (VSA), variable damper actuators, and variable inertia actuators. The limitations of existing designs are addressed by introducing a novel thermal-based VIA that leverages the viscoelastic properties of PCL through shear-mode operation.
The study delves into mechanical design aspects like torsion spring stiffness calculations and rheological behavior analysis of PCL at different temperatures. Rheology tests cover creep, stress relaxation, frequency sweep, amplitude sweep, and temperature sweep to understand PCL's behavior under varying conditions. Perturbation tests are conducted to evaluate the performance of the VIA at different temperatures.
Overall, the research presents a promising approach towards developing more efficient and precise actuator systems by integrating innovative design elements based on shear-mode operation with Polycaprolactone.
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by Trevor Exley... kl. arxiv.org 03-19-2024
https://arxiv.org/pdf/2403.10951.pdfDybere Forespørgsler