Abstract

The dynamic response of the fingerpad plays an important role in the tactile sensory response and precision manipulation, as well as in ergonomic design. This paper investigates the dynamic lumped element response of the human fingerpad in vivo to a compressive load. A flat probe indented the fingerpad at a constant velocity, then held a constant position. The resulting force (0-2 N) increased rapidly with indentation then relaxed during the hold phase. A quasilinear viscoelastic model successfully explained the experimental data. The instantaneous elastic response increased exponentially with position, and the reduced relaxation function included three decaying exponentials (with time constants of approximately 4 ms, 70 ms, and 1.4 s) plus a constant. The model was confirmed with data from sinusoidal displacement trajectories.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Effect of storage methods on indentation-based material properties of abdominal organs
Yuan-Chiao Lu ... Costin D Untaroiu
Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine | VOL. 227
Yuan-Chiao Lu, et. al.Yuan-Chiao Lu ... Costin D Untaroiu
06 Dec 2012
An experimental investigation on dynamic response of composite panels subjected to hydroelastic impact loading at constant velocities
O.H Hassoon ... A El Malki Alaoui
Engineering Structures | VOL. 153
O.H Hassoon, et. al.O.H Hassoon ... A El Malki Alaoui
23 Oct 2017
Workspace Shape and Characteristics for Human Two- and Three-Fingered Precision Manipulation.
Ian M Bullock ... Aaron M Dollar
IEEE transactions on bio-medical engineering | VOL. 62
Ian M Bullock, et. al.Ian M Bullock ... Aaron M Dollar
31 Mar 2015
Ergonomic design and evaluation of the handle for an endoscopic dissector
Yoshihiro Shimomura ... Tetsuo Katsuura
Ergonomics | VOL. 59
Yoshihiro Shimomura, et. al.Yoshihiro Shimomura ... Tetsuo Katsuura
19 Aug 2015
View more papers

More From: Journal of Biomechanical Engineering

Paper Title
Journal
Date
Author
Modeling Fatigue Failure of Cartilage and Fibrous Biological Tissues Using Constrained Reactive Mixture Theory.
Brandon K Zimmerman ... Gerard A Ateshian
Journal of biomechanical engineering | VOL. 146
Brandon K Zimmerman, et. al.Brandon K Zimmerman ... Gerard A Ateshian
01 Dec 2024
A Numerical Study of Crack Penetration and Deflection at the Interface Between Peritubular and Intertubular Dentin.
Min Xu ... Bingbing An
Journal of biomechanical engineering | VOL. 146
Min Xu, et. al.Min Xu ... Bingbing An
01 Dec 2024
Electro-Osmotic Mechanism of Ellis Fluid With Joule Heating, Viscous Dissipation, and Magnetic Field Effects in a Pumping Microtube.
Saima Noreen ... F Aslam
Journal of biomechanical engineering | VOL. 147
Saima Noreen, et. al.Saima Noreen ... F Aslam
27 Nov 2024
Estimation of Joint Kinetics During Manual Material Handling Using Inertial Motion Capture: A Follow-Up Study.
Sebastian Skals ... Michael S Andersen
Journal of biomechanical engineering | VOL. 147
Sebastian Skals, et. al.Sebastian Skals ... Michael S Andersen
27 Nov 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.