Strengthening artificial muscle of oil-water composite network by nanotechnology

Abstract

Artificial muscle, as a new technology, has a broad application prospect and market in the future, which is more effectively applied to the medical repair of human muscle damage, enhance the strength performance of human muscle, and enrich the function of artificial robots. Nanotechnology is also a high-precision technology that can be added to artificial muscles to make expansion and contraction more reliable. Currently, nanotechnology is constantly innovating in artificial muscles. There have been examples of using artificial muscles to add touch systems for real-time interaction and temperature changes, as well as combining sacrificial coordination keys with mechanical training processes to allow artificial muscles to bear more than their own multiple weights. Carbon catheters using nanotechnology have been shown to contract by as much as 20%. However, while focusing on enhancing the performance of artificial muscles, the bionic ability of the material itself has been neglected, and the elasticity and stretch of the muscle is a major difficulty. Therefore, there are still some shortcomings and areas that can be improved in this field. In this paper, we discuss how to use carbon conduit nanotechnology to strengthen artificial muscles, which provides effective reference materials for human beings to better understand the application of artificial muscle nanotechnology.