The apparent mass and mechanical impedance of the hand and the transmission of vibration to the fingers, hand, and arm

Although hand-transmitted vibration causes injury and disease, most often evident in the fingers, the biodynamic responses of the fingers, hand, and arm are not yet well understood. A method of investigating the motion of the entire finger–hand–arm system, based on the simultaneous measurement of th...

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Published inJournal of sound and vibration Vol. 325; no. 3; pp. 664 - 678
Main Authors Concettoni, Enrico, Griffin, Michael
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.08.2009
Elsevier
Subjects
Biological and medical sciences
Biomechanics. Biorheology
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Fundamental areas of phenomenology (including applications)
Physics
Solid mechanics
Structural and continuum mechanics
Tissues, organs and organisms biophysics
Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
Human
Vibration
Mechanical impedance
Finger
Metal
Experimental study
Plate
Biomechanics
Wave transmission
Laser dopplerometry
Added mass
Simultaneous measurement
Upper limb
Elbow
Online AccessGet full text
ISSN0022-460X
1095-8568
DOI10.1016/j.jsv.2009.03.033

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Abstract Although hand-transmitted vibration causes injury and disease, most often evident in the fingers, the biodynamic responses of the fingers, hand, and arm are not yet well understood. A method of investigating the motion of the entire finger–hand–arm system, based on the simultaneous measurement of the biodynamic response at the driving point and the transmissibility to many points on the finger–hand–arm system, is illustrated. Fourteen male subjects participated in an experiment in which they pushed down on a vertically vibrating metal plate with their right forearm pronated and their elbow bent at 90°. The apparent mass and mechanical impedance of the finger–hand–arm system were measured for each of seven different contact conditions between the plate and the fingers and hand. Simultaneously, the vibration of the fingers, hand, and arm was measured at 41 locations using a scanning laser Doppler vibrometer. Transmissibilities showed how the vibration was transmitted along the arm and allowed the construction of spectral operating deflection shapes showing the vibration pattern of the fingers, hand, and arm for each of the seven contact conditions. The vibration patterns at critical frequencies for each contact condition have been used to explain features in the driving point biodynamic responses and the vibration behaviour of the hand–arm system. Spectral operating deflection shapes for the upper limb assist the interpretation of driving point biodynamic responses and help to advance understanding required to predict, explain, and control the various effects of hand-transmitted vibration.
AbstractList Although hand-transmitted vibration causes injury and disease, most often evident in the fingers, the biodynamic responses of the fingers, hand, and arm are not yet well understood. A method of investigating the motion of the entire finger–hand–arm system, based on the simultaneous measurement of the biodynamic response at the driving point and the transmissibility to many points on the finger–hand–arm system, is illustrated. Fourteen male subjects participated in an experiment in which they pushed down on a vertically vibrating metal plate with their right forearm pronated and their elbow bent at 90°. The apparent mass and mechanical impedance of the finger–hand–arm system were measured for each of seven different contact conditions between the plate and the fingers and hand. Simultaneously, the vibration of the fingers, hand, and arm was measured at 41 locations using a scanning laser Doppler vibrometer. Transmissibilities showed how the vibration was transmitted along the arm and allowed the construction of spectral operating deflection shapes showing the vibration pattern of the fingers, hand, and arm for each of the seven contact conditions. The vibration patterns at critical frequencies for each contact condition have been used to explain features in the driving point biodynamic responses and the vibration behaviour of the hand–arm system. Spectral operating deflection shapes for the upper limb assist the interpretation of driving point biodynamic responses and help to advance understanding required to predict, explain, and control the various effects of hand-transmitted vibration.
Although hand-transmitted vibration causes injury and disease, most often evident in the fingers, the biodynamic responses of the fingers, hand, and arm are not yet well understood. A method of investigating the motion of the entire finger-hand-arm system, based on the simultaneous measurement of the biodynamic response at the driving point and the transmissibility to many points on the finger-hand-arm system, is illustrated. Fourteen male subjects participated in an experiment in which they pushed down on a vertically vibrating metal plate with their right forearm pronated and their elbow bent at 90'. The apparent mass and mechanical impedance of the finger-hand-arm system were measured for each of seven different contact conditions between the plate and the fingers and hand. Simultaneously, the vibration of the fingers, hand, and arm was measured at 41 locations using a scanning laser Doppler vibrometer. Transmissibilities showed how the vibration was transmitted along the arm and allowed the construction of spectral operating deflection shapes showing the vibration pattern of the fingers, hand, and arm for each of the seven contact conditions. The vibration patterns at critical frequencies for each contact condition have been used to explain features in the driving point biodynamic responses and the vibration behaviour of the hand-arm system. Spectral operating deflection shapes for the upper limb assist the interpretation of driving point biodynamic responses and help to advance understanding required to predict, explain, and control the various effects of hand-transmitted vibration.
Author Griffin, Michael
Concettoni, Enrico
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Issue 3
Keywords Human
Vibration
Mechanical impedance
Finger
Metal
Experimental study
Plate
Biomechanics
Wave transmission
Laser dopplerometry
Added mass
Simultaneous measurement
Upper limb
Elbow
Language English
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Snippet Although hand-transmitted vibration causes injury and disease, most often evident in the fingers, the biodynamic responses of the fingers, hand, and arm are...
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SubjectTerms Biological and medical sciences
Biomechanics. Biorheology
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Fundamental areas of phenomenology (including applications)
Physics
Solid mechanics
Structural and continuum mechanics
Tissues, organs and organisms biophysics
Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
Title The apparent mass and mechanical impedance of the hand and the transmission of vibration to the fingers, hand, and arm
URI https://dx.doi.org/10.1016/j.jsv.2009.03.033
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