Dynamics of wheel-soil systems, a soil stress and deformation-based approach, Jaroslaw A. Pytka
Type
Label
Dynamics of wheel-soil systems, a soil stress and deformation-based approach, Jaroslaw A. Pytka
Language
eng
Bibliography note
Includes bibliographical references
Illustrations
illustrations
Index
no index present
Literary Form
non fiction
Main title
Dynamics of wheel-soil systems
Nature of contents
bibliographydictionaries
Oclc number
1808727249
Responsibility statement
Jaroslaw A. Pytka
Series statement
Ground vehicle engineering series
Sub title
a soil stress and deformation-based approach
Summary
"Devoted to experimental methods of soil stress and deformation, as well as wheel forces determination and their use in wheel-soil system description, this book provides important knowledge of wheel-soil interaction that can be used for the modeling and simulation of wheels/tracks performance over soft ground. It offers novel ideas and designs of soil and snow pressure sensors, and optical-electronic system for soil deformation determination and wheel force transducers. It also describes field procedures and methods of sensor installation in soil/snow and the use of this equipment for both laboratory and field experiments"--, Provided by publisher
Table Of Contents
Introduction to Wheel-Soil Systems; Ground Vehicles and Their Running Gears; Major Research Problems; References; ; Measurement of Soil Stress and Deformation; Soil Stress Measurements: Introduction; Characterisation of Soil Stress Transducers; Strain Gage Pressure Transducers for Soils; Stress State Transducer (SST); Soil Deformation Determination; Conclusions; References; ; Soil Stress and Deformation State: Investigations in Monolith Soil Samples; Introduction; Effect of Static Load and Soil Stress and Deformation in Loamy Luvisol; Effects Deformation Rate on Soil Stress and Deformation State in Loess; References; ; Stress State under Wheeled Vehicle Loads; Introduction; Field Experiment Preparation; Analysis of Principal Stresses; Effect of Vehicle Loading and Reduced Inflation Pressure; Effects of Repeated Rolling; Analysis of OctahedralStresses; Relationships of Soil Stress and Drawbar Pull; Final Discussion and Concluding Remarks; References; ; Stress State under Tracked Vehicle Loads; Introduction; Experimental Methods; Analysis of Soil Stress State under Loading by Tracked Vehicles; Determination of Soil Stress-Strain Relationships; Effects of Rubber Pads on Soil Stress and Tracked Vehicle Traction; Final Conclusions; References; ; Wheel-Soil Dynamics for Aircraft Tyres on Unsurfaced Airfields; Introduction; Soil Stress State under Loading of Landing Aircraft; Rolling Resistance Coefficients for Aircraft Tyres on Unsurfaced Airfields; Effect of Grassy Surface on Take-Off Distance; Proposed Method for Airfield Surface Evaluation and Classification; Summary; References; ; Snow Stress State under Ground Vehicle Loads; Introduction; Snow Stress Measurement Methods; Determining Snow Stress under Loading ofGrooming Machine; Determination of Winter Traction and Snow Stresses under Military Truck Loading; Effects of Snow Skis on Snow Stresses and Aircraft Ground Performance; Summary; References; ; Modelling of Wheel-Soil System Based on Soil Stress and Deformation State Analysis; Introduction; Modelling Off-Road Traction; Modelling Soil Stress State by System Identification (SI); Modelling Dynamic Effects of Wheel-Soil System; Summary; References; ; Summary Index