A new approach to characterize grip force applied to a cylindrical handle.

The grip force applied to a cylindrical handle is a function of the measurement reference axis. So far, however, no attempt has been made to fully describe the exact form of this function. The objectives of this study were to examine some fundamental characteristics of grip forces and to explore the basic pattern of the grip force function. Twenty subjects (10 males and 10 females) participated in the experiment. The subjects alternately used their left and right hands to apply maximum grip forces and medium grip forces (about 40% of maximum) to a 30 mm handle. A flexible pressure sensor mat was used to measure the grip pressure. The pressure was integrated with respect to different measurement axes; this resulted in the grip force function. This study found that every gripping action produces maximum and minimum force axes; these axes are separated by about 90 degrees . The maximum force is correlated with the minimum force, but the former is generally about 1.42 times the latter. The principal grip direction is about 78 degrees from the z(h)-axis of the hand biodynamic coordinate system defined in ISO 8727 [ISO 8727. Mechanical vibration and shock - human exposure - biodynamic coordinate systems. Geneva, Switzerland: International Organization for Standardization; 1997]. More interestingly, each of the 160 sets of experimental data reasonably fit this study's proposed elliptical model. The implications of the findings are discussed.

[1]  M. Murison,et al.  Functional outcomes following surgical repair of wrist extensor tendons. , 2003, British journal of plastic surgery.

[2]  Hung-Chan Kao,et al.  Endoscopic carpal tunnel release using a new median nerve protector. , 2004, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[3]  I. Pyykkö,et al.  Hand-grip force in lumberjacks: two-year follow-up , 1986, International archives of occupational and environmental health.

[4]  D. E. Welcome,et al.  An investigation on the relationship between grip, push and contact forces applied to a tool handle , 2004 .

[5]  Robert G. Radwin,et al.  Grip Force Vectors for Varying Handle Diameters and Hand Sizes , 2004, Hum. Factors.

[6]  S. Kumar,et al.  Effect of musculoskeletal disorders on prehension strength. , 2001, Applied ergonomics.

[7]  D. E. Welcome,et al.  Evaluation of psychometric estimates of vibratory hand-tool grip and push forces , 2006 .

[8]  Ronald L. Huston,et al.  Practical Stress Analysis in Engineering Design , 1982 .

[9]  A C Nicol,et al.  A novel force transducer for the measurement of grip force. , 2001, Journal of biomechanics.

[10]  D. E. Welcome,et al.  Contact pressure distribution at hand–handle interface: role of hand forces and handle size , 2005 .

[11]  J H Abbott,et al.  The initial effects of an elbow mobilization with movement technique on grip strength in subjects with lateral epicondylalgia. , 2001, Manual therapy.

[12]  W. Smutz,et al.  Vibration energy absorption (VEA) in human fingers-hand-arm system. , 2004, Medical engineering & physics.

[13]  A A Amis,et al.  Variation of finger forces in maximal isometric grasp tests on a range of cylinder diameters. , 1987, Journal of biomedical engineering.

[14]  Pierre Marcotte,et al.  Effect of handle size and hand–handle contact force on the biodynamic response of the hand–arm system under zh-axis vibration , 2005 .