15-20% of all polymer/plastics are crosslinked polymer or polymer networks, also called thermosets, and 0% are recycled for high-value products.​

Prof. John M. Torkelson – Northwestern University, IL, USA​

The SHINTO project aims to disrupt the soft robotics market by creating a new market for self-healing structural components, introducing autonomous damage detection and healing in intelligent soft robots. The current field is driven by a high adoption of soft grippers that ensure safe operation for collaborative robots in manufacturing and delicate manipulation in agrifood and warehousing. However, these expensive and mostly non-recyclable soft robots have limited lifetimes due to their vulnerability to damage. In symbiosis, VUB-research groups FYSC and Brubotics have been building soft robots out of self-healing materials that fully recover functional material properties and resulting performances after healing incurred damage. This extends the robots service lifetime and raises their reliability and sustainability, which in combination with their inherent recyclability contributes to economic benefits and the EU Green Deal.