Electromechanical Artificial Muscle
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Inspired by the hierarchical architecture of human muscle fibers, our technology mimics natural contraction mechanisms. This structure allows for enhanced force output and responsiveness in compact designs.
Passive -Active Mode
Energy-free support and powered movement.
Quiet Operation
Low-noise performance during use.
High Power/Size Ratio
More force in compact design.
Energy Efficiency
Maximum output with minimal energy.
Design According to Need
Tailored solutions for specific functions.
Low Response Time
Rapid reaction with minimal delay.
Muscle Structure
The human muscle structure consists of bundles of muscle fibers, each containing myofibrils. These myofibrils are composed of actin and myosin filaments that enable contraction.
Milestones
Scroll to learn about our company’s journey
PROBLEM
​Actuation for Exos
Existing actuator technologies in exoskeletons are bulky, noisy, and mechanically limited—hindering real-world applications in healthcare, industry, and robotics.​
​Active Support for the Spine
Lower back pain affects over 60% of workers globally, causing reduced productivity and long-term disability. Passive exoskeletons often fail to provide sufficient dynamic support, while active systems rely on bulky actuators with limited duty cycles, noise, and high energy demands—making them impractical for daily use in clinical or industrial environments.
Biomimetic Future
Vexnor Technology
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SOLUTION
Biomimetic Actuator (Magneruca)
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We developed a compact, silent, and modular biomimetic actuator inspired by sarcomere contraction. Unlike conventional motors or pneumatic systems, it delivers high force-to-size performance without requiring external pumps or compressors. It enables natural, efficient movement in wearable robotics.
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Myospine Exoskeleton
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Built on our actuator technology, Myospine is a smart lower-back exoskeleton designed to reduce spinal load and prevent musculoskeletal injuries. It offers dynamic support with minimal weight, making it ideal for daily industrial or rehabilitation use where passive systems fall short and active ones are too bulky.
Vexnor Highlights
Shaping the Future with TÜBÄ°TAK 2209-B Projects
As Vexnor Technology, we are providing industry mentorship for two innovative projects supported by TÜBÄ°TAK 2209-B – Research Projects for Industry-Oriented Undergraduate Students.
Açelya B. Tosun
Asya Y. ÇöloÄŸlu
Biodegradable Medical Cast
COâ‚‚ Capture System With Microalgae Biofilm
