Measurement, evaluation, and assessment of occupational exposures to hand-transmitted vibration

wbldb

Griffin, M. J.¹

Measurement, evaluation, and assessment of occupational exposures to hand-transmitted vibration

Occup Environ Med. February 1997;54(2):73-89

Affiliations

¹Human Factors Research Unit, Institute of Sound and Vibration Research, University of Southampton
Abstract and keywords

The measurement of hand-transmitted vibration converts oscillatory movements to a form in which they can be evaluated with respect to human responses and assessed for their acceptability. This paper presents methods of measurement, evaluation, and assessment currently advocated in standards and other forms of guidance. The degree to which the methods of evaluating different frequencies, directions, and durations of vibration affect the assessment of vibration on different tools is illustrated. With the frequency weighting currently used to allow for the effects of different frequencies there is little need to measure vibration at frequencies as high as 1000 Hz; this has significant implications to the design and evaluation of proposed antivibration devices, including gloves. Without the current frequency weighting, vibration at frequencies greater than 250 Hz can contribute to the magnitude of the vibration, but many common causes of injury from hand-transmitted vibration have their dominant components of vibration below 250 Hz. On many powered tools, although the dominant frequency of vibration is the same before and after frequency weighting, the reported magnitude of vibration is greatly affected by the frequency weighting. On tools with dominant low frequencies, their vibration is rated as being of far greater importance relative to other tools when considering frequency-weighted acceleration than when considering unweighted acceleration. It is shown that the effect of considering three axes of vibration as opposed to one axis has a greater effect on some tools than on others. The uncertainties and assumptions involved in the measurement, evaluation, and assessment of hand-transmitted vibration are reviewed. It is suggested that whereas current decisions on health and welfare should be based on current assessment methods, the measurement and evaluation of hand-transmitted vibration should involve the collection and reporting of data which allow other interpretations in the future.

Keywords: vibration; dose-effect relations; vibrationinduced white finger; standards
Links

DOI: 10.1136/oem.54.2.73

PubMed: 9072014

PubMedCentral: PMC1128656

WoS: A1997WG77200001
History

Accepted: 1996-08-01

Cited Works (5)

Year	Entry
1996	Mechanical Vibration and Shock: Hand-Arm Vibration: Method for the Measurement and Evaluation of the Vibration Transmissibility of Gloves At the Palm of the Hand. ISO Standard ISO 10819. [ISO Standard thesis]. Geneva, Switzerland: International Organization for Standardization; 1996.
1990	Griffin MJ. Handbook of Human Vibration. London, UK: Academic Press Limited; 1990.
1994	Griffin MJ. Foundations of hand-transmitted vibration standards. Nagoya J Med Sci. May 1994;57(suppl):147-164.
1986	Mechanical Vibration: Guidelines for the Measurement and the Assessment of Human Exposure to Hand-Transmitted Vibration. ISO Standard ISO 5349. [ISO Standard thesis]. Geneva, Switzerland: International Organization for Standardization; 1986.
1977	Reynolds DD, Standlee KG, Angevine EN. Hand-arm vibration, III: subjective response characteristics of individuals to hand-induced vibration. J Sound Vibrat. March 22, 1977;51(2):267-282.

Cited By (24)

Year	Entry
2001	Mechanical Vibration: Measurement and Evaluation of Human Exposure to Hand-Transmitted Vibration, I: General Requirements. ISO Standard ISO 5349-1. [ISO Standard thesis]. Geneva, Switzerland: International Organization for Standardization; 2001.
2008	McDowell TW, Dong RG, Xu X, Welcome DE, Warren C. Evaluating impact wrench vibration using the method in proposed revisions to ISO 8662-7. In: Proceedings of the 2nd American Conference on Human Vibration. June 4-6, 2008; Chicago, IL.89-90.
2012	Liljelind I, Pettersson H, Nilsson L, Wahlström J, Lundström R, Toomingas A, Burström L. Determinants explaining the variability in hand-arm vibration exposure during two work tasks with angle grinders. In: Proceedings of the 4th American Conference on Human Vibration. June 13-15, 2012; Farmington, CT.48-49.
2004	Dong RG, McDowell TW, Welcome DE, Wu JZ. An investigation of the relationship between vibration-induced white finger and power absorption. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.161-167.
2004	Maeda S, Dong RG. Measurement of hand-transmitted vibration exposures. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.89-93.
2019	Cavacece M, Aghilone G. Effects of vibration directions, postures and velocity levels on measurements of the mechanical impedance of the hand-arm system. In: 54th UK Conference on Human Response to Vibration. September 24-26, 2019; Edinburgh, UK.
2017	Shen S, House RA. Hand-arm vibration syndrome: what family physicians should know. Can Fam Physician. March 2017;63(3):206-210.
2001	Dong RG, Rakheja S, Schopper AW, Han B, Smutz WP. Hand-transmitted vibration and biodynamic response of the human hand-arm: a critical review. Crit Rev Biomed Eng. 2001;29(4):393-439.
2005	Dong RG, Wu JZ, Welcome DE. Recent advances in biodynamics of human hand-arm system. Ind Health. July 2005;43(3):449-471.
1998	Bovenzi M. Exposure-response relationship in the hand-arm vibration syndrome: an overview of current epidemiology research. Int Arch Occup Environ Health. November 1998;71(8):509-519.
2002	Griffin MJ, Bovenzi M. The diagnosis of disorders caused by hand-transmitted vibration: Southampton Workshop 2000. Int Arch Occup Environ Health. January 2002;75(1-2):1-5.
2008	Griffin MJ. Measurement, evaluation, and assessment of peripheral neurological disorders caused by hand-transmitted vibration. Int Arch Occup Environ Health. April 2008;81(5):559-573.
2002	Dong RG, Rakheja S, Smutz WP, Schopper A, Welcome D, Wu JZ. Effectiveness of a new method (TEAT) to assess vibration transmissibility of gloves. Int J Ind Ergon. July 2002;30(1):33-48.
2014	Welcome DE, Dong RG, Xu XS, Warren C, McDowell TW. The effects of vibration-reducing gloves on finger vibration. Int J Ind Ergon. January 2014;44(1):45-59.
2015	Welcome DE, Dong RG, Xu XS, Warren C, McDowell TW, Wu JZ. An examination of the vibration transmissibility of the hand-arm system in three orthogonal directions. Int J Ind Ergon. February 2015;45:21-34.
2008	Dong JH, Dong RG, Rakheja S, Welcome DE, McDowell TW, Wu JZ. A method for analyzing absorbed power distribution in the hand and arm substructures when operating vibrating tools. J Sound Vibrat. April 8, 2008;311(3-5):1286-1304.
2009	Concettoni E, Griffin M. The apparent mass and mechanical impedance of the hand and the transmission of vibration to the fingers, hand, and arm. J Sound Vibrat. August 21, 2009;325(3):664-678.
2013	Dong RG, Welcome DE, McDowell TW, Wu JZ. Modeling of the biodynamic responses distributed at the fingers and palm of the hand in three orthogonal directions. J Sound Vibrat. February 2013;332(4):1125-1140.
2019	Xu XS, Welcome DE, Warren CM, McDowell TW, Dong RG. Development of a finger adapter method for testing and evaluating vibration-reducing gloves and materials. Measurement. April 2019;137:362-374.
1998	Griffin MJ. Evaluating the effectiveness of gloves in reducing the hazards of hand-transmitted vibration. Occup Environ Med. May 1998;55(5):340-348.
2000	Palmer KT, Griffin MJ, Bendall H, Pannett B, Coggon D. Prevalence and pattern of occupational exposure to hand transmitted vibration in Great Britain: findings from a national survey. Occup Environ Med. April 2000;57(4):218-228.
2003	Griffin MJ, Bovenzi M, Nelson CM. Dose-response patterns for vibration-induced white finger. Occup Environ Med. January 2003;60(1):16-26.
2004	Griffin MJ. Minimum health and safety requirements for workers exposed to hand-transmitted vibration and whole-body vibration in the European Union: a review. Occup Environ Med. May 2004;61(5):387-397.
2006	McDowell TW. An Evaluation of Vibration and Other Effects on the Accuracy of Grip and Push Force Recall [PhD thesis]. Morgantown, WV: West Virginia University; 2006.