A Multi-Material Self-Healing Soft Gripper
A Multi-Material Self-Healing Soft Gripper,RoboSoft 2019 - 2019 IEEE International Conference on Soft Robotics,: 316-321,2019 (May).
In the field of soft robotics, the material selection plays an important role and markedly influences the properties of the actuators. More complex actuators can be manufactured by combining the strengths of multiple materials in a single design. To allow this, a good connection between the different materials is indispensable. Making a physical connection between flexible materials, having different properties, is difficult and leads to failure and damage due to stress concentrations at the interface. This is why in soft robots, most of the time single-material actuators are used. In this work, re-mendable elastomeric polymers are used to construct multi-material soft actuators. These Diels-Alder polymers consist of a thermoreversible covalent network that allows chemical bonding at the interface between two parts. Two Diels-Alder polymers were synthesised with contrasting mechanical properties. Although, having dissimilar Young’s moduli, these different materials can chemically bind at the interface, resulting in a very strong connection. This principle was elaborated in a dual-material tendon-driven soft gripper. Additionally, the reversible network allows to heal damages using mild heating. This healing ability was demonstrated by subsequently damaging and completely healing the dual-material soft actuator multiple times.
author = "Roels, E.; Terryn, S.; Brancart, J.; Van Assche, G.; Vanderborght, B.",
title = "A Multi-Material Self-Healing Soft Gripper",
booktitle = "RoboSoft 2019 - 2019 IEEE International Conference on Soft Robotics",
year = "2019",
editor = "",
volume = "",
number = "",
pages = "316-321",
publisher = "",
address = "",
month = "May",
doi = "10.1109/ROBOSOFT.2019.8722781",
note = "",