Robotic artificial muscles are a form of artificial muscle that enables robots to perform the same movements, just like other biologically inspired motions. Artificial muscles allow robots to move and perform actions. Robotic artificial muscles are flexible and capable of producing straight contractions, just like our biological muscles.
The technology has widely grown in popularity in various fields, including biomimetic robots, soft robots, and safe human-robot.
Scientists have tried to develop devices that imitate the range of motion and characteristics of natural muscles. These muscles can easily expand or contract according to the impact of external factors, such as temperature, pressure, electric current, or voltage.
The wide applications of robotic artificial muscles make them beneficial for biometric machines, medical robots, wearable robots, and other machines.
The ongoing advancements and wide applications of robotic artificial muscles are forecast to fuel their adoption in the coming years. The future of these actuators is likely to witness rapid growth. The growth of the new era is attributed to the growing prevalence of diseases which are burdening the healthcare sector. Apart from that, advantages like low weight, efficiency, elasticity are all the factors that may positively impact the future of these devices.
In 2019, KAIST’s Creative Research Initiative Center for Functionally Antagonistic Nano-Engineering introduced an advanced robotic muscle, which is thin as a skinny strip of paper. Moreover, the team used MXene(T3C2Tx), a compound made up of thin layers of titanium and carbon compounds, to increase the efficiency of the end product.
Several projects have been introduced that are focused on enhancing the capabilities of robots. STAMAS, a European Project introduced by Arquimea Ingeniería, DLR, ETH Zürich, Sensodrive, Universidad Carlos III de Madrid, and Universitá di Pisa. The project focuses on introducing exo-robotic hands and legs. These advancements would be done using Electro-Active Polymers (EAP) actuators and Shape Memory Alloys (SMA) to help astronauts lessen the impact of microgravity on the body.
Researchers in the field are innovating the quickest, strongest, and most efficient ways to enable robots to perform their intended activities.
Mechanical engineers, including professors and students from Northern Arizona University, developed a new high-performance artificial muscle technology. The engineers developed an Italian pasta-shaped artificial muscle called ‘Cavatappi.’ The robotic muscles have specific work and power metrics that are ten times higher than human skeletal muscles.
New possibilities for future usage as biological muscles are becoming more attainable because of the growing research and development in robotic artificial muscles technology.
The robotic artificial muscles technology has developed and is expected to develop more in the coming years. The current stage of development has already given a glimpse of future prospects. According to Astute Analytica, the global robotic artificial muscles market is growing at a compound annual growth rate (CAGR) of 17.4% during the forecast year from 2022 to 2030.
Author’s bio:
Emma is a freelance writer and content strategist who offers to ghostwrite, blogging and copywriting services. She has a keen interest in content marketing with a hold on social media management and market research. With more than five years of experience in writing for different domains, currently, she is exploring a new area of interest in “Information Technology”. Pitch her out to discuss interesting and niche IT domains that are blooming in integration with modern technologies.
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