Article Synopsis
- The study focuses on Octopus vulgaris suckers and their potential to inspire new attachment devices due to their unique ability to adhere to various surfaces in wet conditions.
- The research involves mechanical testing of the sucker tissues to understand their elasticity and viscoelastic properties, revealing that natural sucker tissues are substantially different from common artificial materials used in soft robotics.
- The findings emphasize the importance of studying biological structures to improve the design of advanced suction cups for wet environment applications.
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Article Abstract
In this study, we investigate the morphology and mechanical features of Octopus vulgaris suckers, which may serve as a model for the creation of a new generation of attachment devices. Octopus suckers attach to a wide range of substrates in wet conditions, including rough surfaces. This amazing feature is made possible by the sucker's tissues, which are pliable to the substrate profile. Previous studies have described a peculiar internal structure that plays a fundamental role in the attachment and detachment processes of the sucker. In this work, we present a mechanical characterization of the tissues involved in the attachment process, which was performed using microindentation tests. We evaluated the elasticity modulus and viscoelastic parameters of the natural tissues (E ∼ 10 kPa) and measured the mechanical properties of some artificial materials that have previously been used in soft robotics. Such a comparison of biological prototypes and artificial material that mimics octopus-sucker tissue is crucial for the design of innovative artificial suction cups for use in wet environments. We conclude that the properties of the common elastomers that are generally used in soft robotics are quite dissimilar to the properties of biological suckers.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3869157 | PMC |
| http://dx.doi.org/10.1098/rsif.2013.0816 | DOI Listing |
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