Robotic artificial muscle help robots carry out several operations that demand elasticity and mobility. The robotic artificial muscles have wide applications in medical robots, wearable robots, and other machines. Artificial muscles are the essential components of smart and interactive soft robotic systems. In addition, the technology is widely growing in popularity, owing to the rising awareness about its uses. This efficient technology is adopted to produce biomimetic robots, soft robots, and safe human robots. In addition, they are commonly used to manufacture medical devices and smart textiles.
Current Scenario
Scientists, globally, are thriving to introduce efficient devices that can perform a range of motion. In addition, various research activities are focused on launching advanced artificial muscles that perform tasks similar to natural muscles. Researchers from the Massachusetts Institute of Technology (MIT) in the US unveiled information about the property of spider silk called super contraction. This silk can be used to develop artificial muscles for robots. Moreover, these slender fibers can respond to moisture and suddenly shrink accordingly, according to the research.
In addition, the advancements in the industry are growing rapidly. Researchers are introducing strong and innovative robots to perform activities with efficiency. The professors and students of Northern Arizona University recently introduced the new high-performance artificial muscle technology. These engineers unveiled an Italian pasta-shaped artificial muscle called ‘Cavatappi,’ which performs better than human skeletal muscles.
Future Scenario
The Robotic Artificial muscle market is forecast to witness significant growth due to ongoing advancements and growing research and development activities. In addition, the increasing prevalence of chronic diseases is forecast to boost the growth of the industry in the coming years. The wide applications of robotic artificial muscles in the healthcare segment will benefit the global artificial muscle market in the coming years. Furthermore, governments of various countries are focusing on increasing healthcare expenditure. As a result, market players will witness ample growth opportunities in the coming years.
Estimations
Astute Analytica estimates that the global robotic artificial muscles market is expected to grow at a compound annual growth rate (CAGR) of 17.4% during the forecast period from 2022 to 2030. In addition, recent accomplishments in fabrication, modeling, and control methods are increasing the use of robotic artificial muscles.
Advantages and Applications
The advantageous principles of this technology are forecast to contribute to the industry growth. The robotic artificial muscles are flexible and have low weight. In addition, they are being used in the manufacturing of biomimetic machines, medical robots, wearable robots, humanoid robots, manipulators, and grippers. Thus, the wide range of applications of this technology will significantly boost the revenue generation of the market during the study period.
Regional Analysis
Regionally, the European market for robotic artificial muscles is forecast to grow at the highest rate, owing to the increasing number of advancements in the region. Arquimea Ingeniería unveiled a new project named STAMAS (Smart technology for artificial muscle applications in space). The project aims to develop efficient smart actuation technologies for space applications. In addition, it will increase the deployment of Shape Memory Alloys (SMA), Electroactive Polymer (EAP) technology, and man-machine cooperative control to develop an actuated space exoskeletal suit for astronauts.
Read about: Electric vehicle charging stations leading the future of the automotive industry
