Transmission of vibration through gloves: effects of material thickness

Abstract It might be assumed that increasing the thickness of a glove would reduce the vibration transmitted to the hand. Three material samples from an anti-vibration glove were stacked to produce three thicknesses: 6.4, 12.8 and 19.2 mm. The dynamic stiffnesses of all three thicknesses, the apparent mass at the palm and the finger and the transmission of vibration to the palm and finger were measured. At frequencies from 20 to 350 Hz, the material reduced vibration at the palm but increased vibration at the finger. Increased thickness reduced vibration at the palm but increased vibration at the finger. The measured transmissibilities could be predicted from the material dynamic stiffness and the apparent mass of the palm and finger. Reducing the dynamic stiffness of glove material may increase or decrease the transmission of vibration, depending on the material, the frequency of vibration and the location of measurement (palm or finger). Practitioner Summary: Transmission of vibration through gloves depends on the dynamic response of the hand and the dynamic stiffness of glove material, which depends on material thickness. Measuring the transmission of vibration through gloves to the palm of the hand gives a misleading indication of the transmission of vibration to the fingers.

[1]  Thomas W. McDowell,et al.  The vibration transmissibility and driving-point biodynamic response of the hand exposed to vibration normal to the palm , 2011 .

[2]  D. D. Reynolds,et al.  Hand-arm vibration, part I: Analytical model of the vibration response characteristics of the hand , 1977 .

[3]  Michael J. Griffin,et al.  The apparent mass and mechanical impedance of the hand and the transmission of vibration to the fingers, hand, and arm , 2009 .

[4]  Ren G Dong,et al.  Tool-specific performance of vibration-reducing gloves for attenuating palm-transmitted vibrations in three orthogonal directions. , 2014, International journal of industrial ergonomics.

[5]  M J Griffin,et al.  Evaluating the effectiveness of gloves in reducing the hazards of hand-transmitted vibration. , 1998, Occupational and environmental medicine.

[6]  Michael J. Griffin,et al.  Measurements of glove and hand dynamics using knuckle vibration , 2001 .

[7]  M. J. Griffin,et al.  Predicting the effects of push force on the transmission of vibration through glove materials to the palm of the hand , 2004 .

[8]  Niklas Gloeckner,et al.  Handbook Of Human Vibration , 2016 .

[9]  Anne Marsden,et al.  International Organization for Standardization , 2014 .

[10]  Ren G Dong,et al.  Vibration-reducing gloves: transmissibility at the palm of the hand in three orthogonal directions , 2013, Ergonomics.

[11]  R G Dong,et al.  Distribution of mechanical impedance at the fingers and the palm of the human hand. , 2005, Journal of biomechanics.

[12]  M J Griffin,et al.  Effect of contact conditions on the mechanical impedance of the finger. , 1996, Central European journal of public health.

[13]  D. D. Reynolds,et al.  Dynamic response of the hand-arm system to a sinusoidal input , 1972 .

[14]  M. J. Griffin,et al.  5 – Whole-body Vibration and Health , 1990 .

[15]  Michael J. Griffin,et al.  Protection effectiveness of anti-vibration gloves: field evaluation and laboratory performance assessment , 2004 .

[16]  Ren G Dong,et al.  The effects of vibration-reducing gloves on finger vibration. , 2014, International journal of industrial ergonomics.

[17]  Toshisuke Miwa STUDIES ON HAND PROTECTORS FOR PORTABLE VIBRATING TOOLS , 1964 .

[18]  D. E. Welcome,et al.  A method for assessing the effectiveness of anti-vibration gloves using biodynamic responses of the hand-arm system , 2005 .

[19]  Michael J Griffin,et al.  The transmission of vibration through gloves: effects of push force, vibration magnitude and inter-subject variability , 2011, Ergonomics.

[20]  Subhash Rakheja,et al.  Vibration transmissibility characteristics of the human hand–arm system under different postures, hand forces and excitation levels , 2010 .

[21]  Michael J Griffin,et al.  The diagnosis of disorders caused by hand-transmitted vibration: Southampton Workshop 2000 , 2002, International archives of occupational and environmental health.

[22]  E. N. Angevine,et al.  Hand-arm vibration, part II: Vibration transmission characteristics of the hand and arm , 1977 .

[23]  Michael J. Griffin,et al.  Inter-subject variability in the measurement of the vibration transmissibility of gloves according to current standards , 2004 .