Gecko inspired micro-fibrillar adhesives for wall climbing robots on micro/nanoscale rough surfaces

This paper presents the fabrication, characterization and testing of bio-inspired synthetic dry adhesive fiber arrays. Fibers were fabricated via micromolding followed by spatula tip formation via dipping. Arrays of fibers with diameters between 28 mum and 57 mum and a height of 114 mum were fabrica...

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Published in	2008 IEEE International Conference on Robotics and Automation pp. 3058 - 3063
Main Authors	Aksak, B., Murphy, M.P., Sitti, M.
Format	Conference Proceeding
Language	English
Published	IEEE 01.05.2008
Subjects	Adhesives Carbon nanotubes Climbing robots Fabrication Nanobioscience Optical fiber testing Robotics and automation Rough surfaces Surface contamination Surface roughness
Online Access	Get full text
ISBN	1424416469 9781424416462
ISSN	1050-4729
DOI	10.1109/ROBOT.2008.4543675

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Abstract	This paper presents the fabrication, characterization and testing of bio-inspired synthetic dry adhesive fiber arrays. Fibers were fabricated via micromolding followed by spatula tip formation via dipping. Arrays of fibers with diameters between 28 mum and 57 mum and a height of 114 mum were fabricated with high uniformity on 6.25 cm 2 areas with up to 95% yield. Adaptation to uneven surfaces was observed with fiber elongations over 6 times the original height of the fiber. The unstructured sample exhibited 1.6 times as much adhesion as the fiber array sample for the flat punch indenter. However, fibrillar samples demonstrated up to 5.3 times as much adhesion as the unstructured sample for the hemispherical indenter. The fibrillar adhesive sample was implemented on a wall climbing robot which was able to carry itself and climb a distance on a painted wall and wood door.
AbstractList	This paper presents the fabrication, characterization and testing of bio-inspired synthetic dry adhesive fiber arrays. Fibers were fabricated via micromolding followed by spatula tip formation via dipping. Arrays of fibers with diameters between 28 mum and 57 mum and a height of 114 mum were fabricated with high uniformity on 6.25 cm 2 areas with up to 95% yield. Adaptation to uneven surfaces was observed with fiber elongations over 6 times the original height of the fiber. The unstructured sample exhibited 1.6 times as much adhesion as the fiber array sample for the flat punch indenter. However, fibrillar samples demonstrated up to 5.3 times as much adhesion as the unstructured sample for the hemispherical indenter. The fibrillar adhesive sample was implemented on a wall climbing robot which was able to carry itself and climb a distance on a painted wall and wood door.
Author	Sitti, M. Aksak, B. Murphy, M.P.
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Snippet	This paper presents the fabrication, characterization and testing of bio-inspired synthetic dry adhesive fiber arrays. Fibers were fabricated via micromolding...
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SubjectTerms	Adhesives Carbon nanotubes Climbing robots Fabrication Nanobioscience Optical fiber testing Robotics and automation Rough surfaces Surface contamination Surface roughness
Title	Gecko inspired micro-fibrillar adhesives for wall climbing robots on micro/nanoscale rough surfaces
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