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Effect of muscle tension on non-linearities in the apparent masses of seated subjects exposed to vertical whole-body vibration. (presented at the 2nd International Conference on Whole-body Vibration Injuries)

Effect of muscle tension on non-linearities in the apparent masses of seated subjects exposed to vertical whole-body vibration. (presented at the 2nd International Conference on Whole-body Vibration Injuries)
Effect of muscle tension on non-linearities in the apparent masses of seated subjects exposed to vertical whole-body vibration. (presented at the 2nd International Conference on Whole-body Vibration Injuries)
In subjects exposed to whole-body vibration, the cause of non-linear dynamic characteristics with changes in vibration magnitude is not understood. The effect of muscle tension on the non-linearity in apparent mass has been investigated in this study. Eight seated male subjects were exposed to random and sinusoidal vertical vibration at five magnitudes (0·35–1·4 m/s2 r.m.s.). The random vibration was presented for 60 s over the frequency range 2·0–20 Hz; the sinusoidal vibration was presented for 10 s at five frequencies (3·15, 4·0, 5·0, 6·3 and 8·0 Hz). Three sitting conditions were adopted such that, in two conditions, muscle tension in the buttocks and the abdomen was controlled. It was assumed that, in these two conditions, involuntary changes in muscle tension would be minimized. The force and acceleration at the seat surface were used to obtain apparent masses of subjects. With both sinusoidal and random vibration, there was statistical support for the hypothesis that non-linear characteristics were less clear when muscle tension in the buttocks and the abdomen was controlled. With increases in the magnitude of random vibration from 0·35 to 1·4 m/s2 r.m.s., the apparent mass resonance frequency decreased from 5·25 to 4·25 Hz with normal muscle tension, from 5·0 to 4·38 Hz with the buttocks muscles tensed, and from 5·13 to 4·5 Hz with the abdominal muscles tensed. Involuntary changes in muscle tension during whole-body vibration may be partly responsible for non-linear biodynamic responses.
0022-460X
77-92
Matsumoto, Y.
326c6cca-baec-4a2f-996d-6909570397de
Griffin, M.J.
24112494-9774-40cb-91b7-5b4afe3c41b8
Matsumoto, Y.
326c6cca-baec-4a2f-996d-6909570397de
Griffin, M.J.
24112494-9774-40cb-91b7-5b4afe3c41b8

Matsumoto, Y. and Griffin, M.J. (2002) Effect of muscle tension on non-linearities in the apparent masses of seated subjects exposed to vertical whole-body vibration. (presented at the 2nd International Conference on Whole-body Vibration Injuries). Journal of Sound and Vibration, 253 (1), 77-92. (doi:10.1006/jsvi.2001.4250).

Record type: Article

Abstract

In subjects exposed to whole-body vibration, the cause of non-linear dynamic characteristics with changes in vibration magnitude is not understood. The effect of muscle tension on the non-linearity in apparent mass has been investigated in this study. Eight seated male subjects were exposed to random and sinusoidal vertical vibration at five magnitudes (0·35–1·4 m/s2 r.m.s.). The random vibration was presented for 60 s over the frequency range 2·0–20 Hz; the sinusoidal vibration was presented for 10 s at five frequencies (3·15, 4·0, 5·0, 6·3 and 8·0 Hz). Three sitting conditions were adopted such that, in two conditions, muscle tension in the buttocks and the abdomen was controlled. It was assumed that, in these two conditions, involuntary changes in muscle tension would be minimized. The force and acceleration at the seat surface were used to obtain apparent masses of subjects. With both sinusoidal and random vibration, there was statistical support for the hypothesis that non-linear characteristics were less clear when muscle tension in the buttocks and the abdomen was controlled. With increases in the magnitude of random vibration from 0·35 to 1·4 m/s2 r.m.s., the apparent mass resonance frequency decreased from 5·25 to 4·25 Hz with normal muscle tension, from 5·0 to 4·38 Hz with the buttocks muscles tensed, and from 5·13 to 4·5 Hz with the abdominal muscles tensed. Involuntary changes in muscle tension during whole-body vibration may be partly responsible for non-linear biodynamic responses.

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More information

Published date: 2002
Organisations: Human Sciences Group

Identifiers

Local EPrints ID: 10618
URI: http://eprints.soton.ac.uk/id/eprint/10618
DOI: doi:10.1006/jsvi.2001.4250
ISSN: 0022-460X
PURE UUID: d34ed55f-de2f-496b-9933-570d92795ea8
ORCID for M.J. Griffin: ORCID iD orcid.org/0000-0003-0743-9502

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Date deposited: 16 Feb 2005
Last modified: 15 Mar 2024 05:00

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Author: Y. Matsumoto
Author: M.J. Griffin ORCID iD

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