Effect of layer compliance on frictional behavior of soft robotic fingers

Paolo Tiezzi; Imin Kao; Gabriele Vassura

doi:10.1163/156855307782227390

Effect of layer compliance on frictional behavior of soft robotic fingers

Paolo Tiezzi
, Imin Kao
, Gabriele Vassura

Mechanical Engineering

University of Bologna

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

In this paper, the modeling and design for frictional loads applied by robotic fingertips through a soft contact interface are investigated. The dependence of the sustainable friction forces and moments due to the normal force applied on the contact area is studied. A model that considers the dependence of both the contact area and the coefficient of friction on the application of normal force is proposed. Specimens of simplified fingertips, made with different materials and shaped with different thickness of the covering soft layer, were tested in order to validate the proposed model via designed experiments. The results obtained have very important relevance to the design of robotic hands and fingers equipped with soft pads or skins, and can help in the choice of suitable features for the different layers of contact pads or skins.

Original language	English
Pages (from-to)	1653-1670
Number of pages	18
Journal	Advanced Robotics
Volume	21
Issue number	14
DOIs	https://doi.org/10.1163/156855307782227390
State	Published - Oct 1 2007

Keywords

Frictional loads
Layer compliance
Modeling
Robotic finger
Soft contact interface

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title = "Effect of layer compliance on frictional behavior of soft robotic fingers",

abstract = "In this paper, the modeling and design for frictional loads applied by robotic fingertips through a soft contact interface are investigated. The dependence of the sustainable friction forces and moments due to the normal force applied on the contact area is studied. A model that considers the dependence of both the contact area and the coefficient of friction on the application of normal force is proposed. Specimens of simplified fingertips, made with different materials and shaped with different thickness of the covering soft layer, were tested in order to validate the proposed model via designed experiments. The results obtained have very important relevance to the design of robotic hands and fingers equipped with soft pads or skins, and can help in the choice of suitable features for the different layers of contact pads or skins.",

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AU - Tiezzi, Paolo

AU - Kao, Imin

AU - Vassura, Gabriele

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Y1 - 2007/10/1

N2 - In this paper, the modeling and design for frictional loads applied by robotic fingertips through a soft contact interface are investigated. The dependence of the sustainable friction forces and moments due to the normal force applied on the contact area is studied. A model that considers the dependence of both the contact area and the coefficient of friction on the application of normal force is proposed. Specimens of simplified fingertips, made with different materials and shaped with different thickness of the covering soft layer, were tested in order to validate the proposed model via designed experiments. The results obtained have very important relevance to the design of robotic hands and fingers equipped with soft pads or skins, and can help in the choice of suitable features for the different layers of contact pads or skins.

AB - In this paper, the modeling and design for frictional loads applied by robotic fingertips through a soft contact interface are investigated. The dependence of the sustainable friction forces and moments due to the normal force applied on the contact area is studied. A model that considers the dependence of both the contact area and the coefficient of friction on the application of normal force is proposed. Specimens of simplified fingertips, made with different materials and shaped with different thickness of the covering soft layer, were tested in order to validate the proposed model via designed experiments. The results obtained have very important relevance to the design of robotic hands and fingers equipped with soft pads or skins, and can help in the choice of suitable features for the different layers of contact pads or skins.

KW - Frictional loads

KW - Layer compliance

KW - Modeling

KW - Robotic finger

KW - Soft contact interface

UR - https://www.scopus.com/pages/publications/35348930033

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DO - 10.1163/156855307782227390

M3 - Article

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VL - 21

SP - 1653

EP - 1670

JO - Advanced Robotics

JF - Advanced Robotics

IS - 14

ER -

Effect of layer compliance on frictional behavior of soft robotic fingers

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Keywords

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