Journal of Biosystems Engineering
- Volume 21 Issue 3
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- Pages.293-305
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- 1996
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- 1738-1266(pISSN)
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- 2234-1862(eISSN)
Effects of Tread, Wheelbase and Axle Load Distribution on Tractor Vibrations
윤거, 축거, 차축 하중 분포가 트랙터 진동에 미치는 영향
Abstract
Effects on the tractor vibrations of tread, wheelbase and axle load distribution were analyzed by using mathematical models of tractor and random road surface. A 4 degrees of freedom tractor model was developed to predict the bounce, pitch and roll motions of tractor. The front axle which is constrained to roll with respect to tractor body was also included in the model. A random road profile was generated and used as an excitation input to the tractor. Output vibrations of the model were predicted and analyzed by a computer simulation method. In general, longer tread tends to reduce rolling and longer wheelbase does bouncing and pitching motions. Tractor vibrations were minimum when the ratio of front to rear axle loads was in the range of 30:70-35:65. Sensitivity analysis showed that rolling and pitching motions most sensitively varied with changes in tread and wheelbase while bouncing motion did with the location of mass center.