Journal of Biosystems Engineering

  • 제27권6호
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  • Pages.491-500
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  • 2002
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  • 1738-1266(pISSN)
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  • 2234-1862(eISSN)
한국농업기계학회 (Korean Society for Agricultural Machinery)
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타이어공기압에 따른 트랙터의 견인성능과 토양다짐

The Effect of Tire Inflation Pressure on Soil Compaction and Tractive Performance of Tractor

  • 발행 : 2002.12.01
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초록

This study was carried out to investigate experimentally the effect of the tire inflation pressure of a tractor on soil compaction and tractive performance. Two kinds of field experiments were conducted using an agricultural tractor. One experiment is concerned with the tractive performance of the tractor at the three levels of tire inflation pressure; 50kpa, 100kpa and 200kpa, and the other one is about the soil compaction at the four levels of tire inflation pressure; 50kpa, 100kpa, 150kpa and 200kpa, at three different numbers of passes; 1, 3 and 5 passes. From the results of the field experiment, it was found that decreasing the tire inflation pressure decreased the motion resistance of tractor and increased the tractive force and tractive efficiency. The tractive and working performance of the tractor could be improved by the reduction of tire inflation pressure. Increasing the inflation pressure and the number of passes increased the soil compaction. Rate of compaction increased rapidly at the first pass and declined at subsequent passes. To reduce the effect of soil compaction for the whole field, it is recommended that tractor should follow the rut of the first pass from the subsequent passes, and decrease the inflation pressure of the driving tires up to allowable minimum level.

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참고문헌

  1. Arvidsson, J. and S. Ristic. 1996. Soil Stresses and Compaction Effects for Four Tractor Tyres, Journal of Terramechanics 33(5):223-232. https://doi.org/10.1016/S0022-4898(97)00006-2
  2. Bailey, A. C., R. L. Raper, T. R. Way, E. C. Burt and C. E. Johnson. 1996. Soil Stresses Under A Tractor tire at Various Load and Inflation Pressures, Journal of Terramechanics 33(1):1-11. https://doi.org/10.1016/0022-4898(96)00004-3
  3. Burt, E. S., P. W. L. Lyne, P. Meiring and J. F. Keen. 1982. Ballast and Inflation Effect on Tire Efficiency. Transaction of the ASAE 25(4):1352-1354.
  4. Gill, W. R. and G. E. Vanden Berg. 1967. Soil Dynamics in Tillage and traction. Handbook 316. Agr. Res. Service, U. S. Dept. Agriculture, Washington. D. C.
  5. Liljedahl, J. B., P. K. Turnquist, D. W. Smith and H. Makoto. 1996. Tractors and Their Power Units. ASAE.
  6. Park, W. Y. and K. S. Lee. 2001. A Study on Soil Stress and Contact Pressure of Tire. Journal of the Korean Sosiety for Agricultural Machinery 26(3):245-252.
  7. Park, W. Y. and K. S. Lee. 2002a. Effect of Slip on Tractive Performance of Driving Wheel. Transactions of Korea Society of Automotive Engineering 10(1):234-243.
  8. Park, W. Y and K. S. Lee. 2002b. The Effect of Dynamic Load, Inflation Pressure and Number of Passes of Tire on Soil Compaction under the Tire. Journal of the Korean Sosiety for gricultural Machinery 27(1):1-10. https://doi.org/10.5307/JBE.2002.27.1.001
  9. Raghavan, G. S., V. E. McKyes, F. Taylor, P. Richard and A. Watson. 1979. The Relationship between Machinery Traffic and Corn Yield Reductions in Successive years. Transaction of the ASAE 22(4):1256-1259. https://doi.org/10.13031/2013.35194

피인용 문헌

  1. Rolling Characteristics of Towed Wheel with Tire Inflation Pressure on Off-Road vol.30, pp.2, 2005, https://doi.org/10.5307/JBE.2005.30.2.069