Kwan Rim scite author profile

Maximum isometric finger-grip forces were predicted using a biomechanical model for plane motion of the middle finger. In the course of this study, mathematical representations of tendon displacement, the moment arm of tendon at the finger joints and muscle force-length relationship were investigated. The information gathered was applied to the model to estimate the maximum grip force of the middle finger gripping cylinders of different sizes. Muscle force per unit physiological cross-section area of 30 N/cm2 resulted in good agreement with measured force. However, for finger postures having an acute proximal interphalangeal joint angle, the estimated force was greater than that measured. Various joint angles were applied to the model to simulate the wrist and finger postures not limited to the cylinder grip. In general the finger force was greatest with the wrist in its extended position and at acute flexion of the proximal interphalangeal joint. The maximum finger force occurred at reduced metacarpophalangeal joint angles as the wrist joint changed from an extended position to a flexed one. It is also postulated that muscle force-length relationship is an important factor in muscle force predictions. The data obtained by this research are useful for the design of handles and the current model is applicable to the analysis of hand postures for workers using hand tools.

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Influence of the proportion of wood on the thermal and mechanical performances of clay-cement-wood composites

Rim¹,

Ledhem

Douzane

et al. 1999

Cement and Concrete Composites

121

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Kwan Rim

Measurement of finger joint angles and maximum finger forces during cylinder grip activity

Frontal ventricular dimensions on normal computed tomography

Application of optimization principles in determining the applied moments in human leg joints during gait

Maximum Finger Force Prediction Using a Planar Simulation of the Middle Finger

Influence of the proportion of wood on the thermal and mechanical performances of clay-cement-wood composites

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