Ground pressure
Ground pressure is the pressure exerted on the ground by the tires or tracks of a motorized vehicle, and is one measure of its potential mobility,<ref>Allen, Jim. Jeep 4 X 4 Performance Handbook. MotorBooks/MBI Publishing Company. p. 16. SBN 076030470X.</ref> especially over soft ground. It also applies to the feet of a walking person or machine. Pressure is measured in the SI unit of pascals (Pa). Average ground pressure can be calculated using the standard formula for average pressure: P = F/A.<ref>Wenger, Karl F. (1984). Forestry Handbook. New York : Wiley. p. 499. ISBN 0-471-06227-8.</ref> In an idealised case, i.e. a static, uniform net force normal to level ground, this is simply the object's weight divided by contact area. The ground pressure of motorized vehicles is often compared with the ground pressure of a human foot, which can be 60 – 80 kPa while walking or as much as 13 MPa for a person in spike heels.<ref>J. William Thompson; Kim Sorvig (2000). Sustainable Landscape Construction: A Guide to Green Building Outdoors. Island Press. p. 51. ISBN 1-55963-646-7.</ref>
Increasing the size of the contact area on the ground (the footprint) in relation to the weight decreases the unit ground pressure. Ground pressure of 14 kPa (2 psi) or less is recommended for fragile ecosystems like marshes.<ref>"Page 4 of Management of small dock and piers, best management practices, May 2005 NOAA" (PDF).</ref> Decreasing the ground pressure increases the flotation, allowing easier passage of the body over soft terrain. This is exemplified by use of equipment such as snowshoes.
Examples
This section needs additional citations for verification. (July 2020) |
All examples are approximate, and will vary based on conditions
Object | Ground pressure (kPa) | (psi) |
---|---|---|
Hovercraft | 0.7 | 0.1 |
Human on snowshoes | 3.5 | 0.5 |
Rubber-tracked ATV | 5.165 | 0.75 |
Wheeled ATV | 13.8 | 2 |
Diedrich D-50 – T2 drilling rig | 26.2 | 3.8 |
Human male (130 kg, standing on one foot) | 55 | 8 |
Average human, flat shoes<ref>J. William Thompson; Kim Sorvig (2000). Sustainable Landscape Construction: A Guide to Green Building Outdoors. Island Press. p. 50. ISBN 1-55963-646-7.</ref> | 17 | 2.5 |
M1 Abrams tank<ref>mathscinotes (2016-06-10). "Tank Track Ground Pressure Examples". Math Encounters Blog. Retrieved 2020-07-16.</ref> | 103 | 15 |
1993 Toyota 4Runner / Hilux Surf | 170 | 25 |
Adult horse (550 kg, 1250 lb) | 170 | 25 |
Bagger 288 excavation machine | 170 | 25 |
Passenger car | 205 | 30 |
Adult elephant | 240 | 35 |
Mountain bicycle | 245 | 40 |
Road racing bicycle | 620 | 90 |
Commercial semi truck/Lorrie | 793 | 115 |
Stiletto heel | 3,250 | 471 |
Note: The pressures for average human and horse are for standing still position.<ref>J. William Thompson; Kim Sorvig (2000). Sustainable Landscape Construction: A Guide to Green Building Outdoors. Island Press. p. 50. ISBN 1-55963-646-7.</ref> A walking human will exert more than double his standing pressure. A galloping horse will exert up to 3.5 MPa (500 psi). The ground pressure for a pneumatic tire is roughly equal to its inflation pressure.
See also
Related reading
- Theory of Ground Vehicles <ref>Wong, Jo Yung (2001). Theory of Ground Vehicles. New York : John Wiley. ISBN 0-471-35461-9.</ref>
References