Payload capabilities and operational limits of eversion robots
Payload capabilities and operational limits of eversion robots
Recent progress in soft robotics has seen new types of actuation mechanisms based on apical extension which allows robots to grow to unprecedented lengths. Eversion robots are a type of robots based on the principle of apical extension offering excellent maneuverability and ease of control allowing users to conduct tasks from a distance. Mechanical modelling of these robotic structures is very important for understanding their operational capabilities. In this paper, we model the eversion robot as a thin-walled cylindrical beam inflated with air pressure, using Timoshenko beam theory considering rotational and shear effects. We examine the various failure modes of the eversion robots such as yielding, buckling instability and lateral collapse, and study the payloads and operational limits of these robots in axial and lateral loading conditions. Surface maps showing the operational boundaries for different combinations of the geometrical parameters are presented. This work provides insights into the design of eversion robots and can pave the way towards eversion robots with high payload capabilities that can act from long distances.
383-394
Godaba, Hareesh
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Putzu, F
d87164eb-a15c-4a76-b259-f34e00d7c54c
Abrar, T
f49fa83b-0882-45a8-bff6-db53709e5887
Konstantinova, J
f682663e-03cb-43e8-8c44-c34822337beb
Althoefer, K
031c800b-bf48-4996-8c17-29f7408898c6
1 January 2019
Godaba, Hareesh
787c1482-6a29-43ad-b49e-a6a2b7175f0c
Putzu, F
d87164eb-a15c-4a76-b259-f34e00d7c54c
Abrar, T
f49fa83b-0882-45a8-bff6-db53709e5887
Konstantinova, J
f682663e-03cb-43e8-8c44-c34822337beb
Althoefer, K
031c800b-bf48-4996-8c17-29f7408898c6
Godaba, Hareesh, Putzu, F, Abrar, T, Konstantinova, J and Althoefer, K
(2019)
Payload capabilities and operational limits of eversion robots.
In Lecture Notes in Computer Science.
Springer Cham.
.
(doi:10.1007/978-3-030-25332-5_33).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Recent progress in soft robotics has seen new types of actuation mechanisms based on apical extension which allows robots to grow to unprecedented lengths. Eversion robots are a type of robots based on the principle of apical extension offering excellent maneuverability and ease of control allowing users to conduct tasks from a distance. Mechanical modelling of these robotic structures is very important for understanding their operational capabilities. In this paper, we model the eversion robot as a thin-walled cylindrical beam inflated with air pressure, using Timoshenko beam theory considering rotational and shear effects. We examine the various failure modes of the eversion robots such as yielding, buckling instability and lateral collapse, and study the payloads and operational limits of these robots in axial and lateral loading conditions. Surface maps showing the operational boundaries for different combinations of the geometrical parameters are presented. This work provides insights into the design of eversion robots and can pave the way towards eversion robots with high payload capabilities that can act from long distances.
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Published date: 1 January 2019
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Local EPrints ID: 500014
URI: http://eprints.soton.ac.uk/id/eprint/500014
ISSN: 0302-9743
PURE UUID: c63b30f8-ad7f-4d5f-a779-9bc1c6e7fa55
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Date deposited: 11 Apr 2025 16:39
Last modified: 12 Apr 2025 02:19
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Contributors
Author:
Hareesh Godaba
Author:
F Putzu
Author:
T Abrar
Author:
J Konstantinova
Author:
K Althoefer
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