Prediction of Soil Compaction under Vehicles

Summary Modeling of soil compaction processes in agriculture provides a means to evaluate harmful vs. desired soil compaction. The steps involved in the development of a basic soil compaction simulation model include: (1) prediction of surface applied forces from farm vehicles; (2) representation of soil stress-strain relationships; (3) modeling the propagation of stresses in the soil profile. Simple relationships are available that predict the surface stress from easily measurable parameters, such as inflation pressure, applied load and tire characteristics. Because of the presence of lugs on tires, prediction of surface stress is much more complicated and needs additional research. Stress-strain relationships obtained from both uniaxial or triaxial laboratory tests have been shown to be adequate for describing soil compaction from farm vehicles. In general, uniaxial tests are easy and inexpensive, whereas triaxial tests are more accurate and apply to many different soil conditions. All existing models of stress propagation in soil are based on the theory of elastic deformation. These models can be categorized into two groups: finite element models and analytical models. Both groups of models have been shown to be adequate for a limited set of experimental conditions. Much more research is needed to make these models acceptable in everyday use by researchers and practitioners. The procedures to link soil compaction models to crop growth models and the research needed both in methods to estimate parameters of the model and in describing the missing processes are also discussed.

[1]  J. W. Dickson,et al.  Compaction by agricultural vehicles: A review I. Soil and wheel characteristics , 1980 .

[2]  R.L.Raper,et al.  PREDICTION OF SOIL STRESSES USING THE FINITE ELEMENT METHOD , 1990 .

[3]  R. L. Schafer,et al.  Modeling Soil Mechanical Behavior During Compaction , 1989 .

[4]  D. W. Tanner,et al.  THE RESPONSE OF UNSATURATED SOILS TO ISOTROPIC STRESS , 1973 .

[5]  R. R. Allmaras,et al.  Models to Assess the Susceptibility of Soils to Excessive Compaction , 1987 .

[6]  W. E. Larson,et al.  Compression of agricultural soils from eight soil orders. , 1980 .

[7]  J. Lipiec,et al.  Soil compaction as a factor determining plant productivity , 1991 .

[8]  Alvin C. Bailey,et al.  A Soil Compaction Model for Cylindrical Stress States , 1989 .

[9]  Eddie C. Burt,et al.  TIRE PERFORMANCE USING DIFFERENT TREADS ON TRAFFIC LANES , 1990 .

[10]  J. V. Perumpral,et al.  The Finite Element Method for Predicting Stress Distribution and Soil Deformation Under a Tractive Device , 1971 .

[11]  W. E. Larson,et al.  Modeling Soil Mechanical behavior During Tillage 1 , 1982 .

[12]  Clarence E. Johnson,et al.  Coupling Normal and Shearing Stresses to Use in Finite Element Analysis of Soil Compaction , 1990 .

[13]  Howard M. Taylor,et al.  PENETRATION OF COTTON SEEDLINGN TAPROOTS AS INFLUENCED BY BULK DENSITY, MOISTURE CONTENT, AND STRENGTH OF SOIL , 1963 .

[14]  I. F. Reed,et al.  Tractive Performance of Radial-Ply and Conventional Tractor Tires , 1962 .

[15]  Eddie C. Burt,et al.  Effects of Dynamic Load on Normal Soil-Tire Interface Stresses , 1990 .

[16]  J. M. Duncan,et al.  Nonlinear Analysis of Stress and Strain in Soils , 1970 .

[17]  G. E. VandenBerg,et al.  Pressure Distribution Between a Smooth Tire and the Soil , 1962 .

[18]  Robert D. Grisso,et al.  Soil Compaction by Continuous Deviatoric Stress , 1987 .

[19]  D. C. Erbach,et al.  EFFECT OF VARIABLE LINEAR ELASTIC PARAMETERS ON FINITE ELEMENT PREDICTION OF SOIL COMPACTION , 1990 .

[20]  David Pollock,et al.  Finite Element Analysis of Multipass Effects of Vehicles on Soil Compaction , 1986 .

[21]  B. Soane,et al.  A METHOD OF PREDICTING BULK DENSITY CHANGES IN FIELD SOILS RESULTING FROM COMPACTION BY AGRICULTURAL TRAFFIC , 1981 .

[22]  D. J. Campbell,et al.  Compaction by agricultural vehicles: A review III. Incidence and control of compaction in crop production , 1982 .

[23]  R. B. Ram Pressure measurement in the soil under the load , 1984 .

[24]  Walter Söhne,et al.  Fundamentals of pressure distribution and soil compaction under tractor tires , 1958 .

[25]  J. W. Dickson,et al.  Compaction by agricultural vehicles: A review II. Compaction under tyres and other running gear , 1980 .

[26]  John R. Williams,et al.  The EPIC crop growth model , 1989 .

[27]  Eddie C. Burt,et al.  A Three-Dimensional System for Measuring Tire Deformation and Contact Stresses , 1987 .

[28]  Ward B. Voorhees,et al.  Vehicle and wheel factors influencing soil compaction and crop response in different traffic regimes , 1988 .

[29]  W. B. Voorhees,et al.  Field testing of a soil compaction model , 1985 .