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Psychophysical basis for maximum pushing and pulling forces: A review and recommendations |
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| Authors: | Arun Garg Thomas Waters Jay Kapellusch Waldemar Karwowski |
| Affiliation: | 1. Industrial & Manufacturing Engineering, Center for Ergonomics, University of Wisconsin-Milwaukee, P.O. Box 784, Milwaukee, WI 53201, USA;2. National Institute for Occupational Safety & Health, 4676 Columbia Parkway, Cincinnati, OH, USA;3. Occupational Science and Technology, Center for Ergonomics, University Of Wisconsin-Milwaukee, Milwaukee, WI, USA;4. Department of Industrial Engineering and Management Systems, University of Central Florida, Orlando, FL 32816, USA |
| Abstract: | The objective of this paper was to perform a comprehensive review of psychophysically determined maximum acceptable pushing and pulling forces. Factors affecting pushing and pulling forces are identified and discussed. Recent studies show a significant decrease (compared to previous studies) in maximum acceptable forces for males but not for females when pushing and pulling on a treadmill. A comparison of pushing and pulling forces measured using a high inertia cart with those measured on a treadmill shows that the pushing and pulling forces using high inertia cart are higher for males but are about the same for females. It is concluded that the recommendations of Snook and Ciriello (1991) for pushing and pulling forces are still valid and provide reasonable recommendations for ergonomics practitioners. Regression equations as a function of handle height, frequency of exertion and pushing/pulling distance are provided to estimate maximum initial and sustained forces for pushing and pulling acceptable to 75% male and female workers. |
| Keywords: | Maximum acceptable pushing and pulling forces (MAFs) Regression equations to estimate MAFs Factors affecting pushing and pulling forces Ergonomic recommendations |
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