AI Article Synopsis
- The study introduces a new type of biomimetic muscle that works by changing stiffness through volume expansion, made from a coiled braid with a hollow elastomer tube inside.
- This synthetic muscle can contract by 47.3% and achieve a maximum power density of 3.0 W/g with a mechanical efficiency of 74% when stimulated by air pressure.
- It operates at low pressure, allowing for portable actuation and features bipolar actuation, making it suitable for use in fast-running and climbing robots.
Article Abstract
Biomimetic actuation technologies with high muscle strokes, cycle rates, and work capacities are necessary for robotic systems. We present a muscle type that operates based on changes in muscle stiffness caused by volume expansion. This muscle is created by coiling a mechanically strong braid, in which an elastomer hollow tube is adhesively attached inside. We show that the muscle reversibly contracts by 47.3% when driven by an oscillating input air pressure of 120 kilopascals at 10 Hz. It generates a maximum power density of 3.0 W/g and demonstrates a mechanical contractile efficiency of 74%. The muscle's low-pressure operation allowed for portable, thermal pneumatical actuation. Moreover, the muscle demonstrated bipolar actuation, wherein internal pressure leads to muscle length expansion if the initial muscle length is compressed and contraction if the muscle is not compressed. Modeling indicates that muscle expansion significantly alters its stiffness, which causes muscle actuation. We demonstrate the utility of BCMs for fast running and climbing robots.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11474079 | PMC |
| http://dx.doi.org/10.1073/pnas.2412288121 | DOI Listing |
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