Difference between revisions of "Foundation"
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Any permanent or semi-permanent structure on the surface of [[Mars]] will need some type of '''foundation'''. A foundation anchors a structure to the ground, preferably to the [[bedrock]]. This stabilizes the structure against the affects of [[gravity]], [[wind]], and ground movements due to changes in ground moisture ([[water]] and [[carbon dioxide]] ice). | Any permanent or semi-permanent structure on the surface of [[Mars]] will need some type of '''foundation'''. A foundation anchors a structure to the ground, preferably to the [[bedrock]]. This stabilizes the structure against the affects of [[gravity]], [[wind]], and ground movements due to changes in ground moisture ([[water]] and [[carbon dioxide]] ice). | ||
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| + | Alternatively, many foundations are of the floating type. This means that after testing the soil, the load bearing capacity is determined and the foundation is built in order to spread the load to less than the load bearing capacity of the soil. That is the main purpose of footings under house walls, for example. In a sense, all building that are not supported directly on the bedrock 'float' on the soil. | ||
==Unique Martian Considerations== | ==Unique Martian Considerations== | ||
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===Low Air Pressure=== | ===Low Air Pressure=== | ||
Low air pressure means that the Martian winds have a greatly reduced effect upon structures compared to terrestrial winds of the same speeds. | Low air pressure means that the Martian winds have a greatly reduced effect upon structures compared to terrestrial winds of the same speeds. | ||
| + | |||
| + | The martian atmosphere has a density of about 2% the one of Earth. As the energy from wind transmitted to a structure is a equation in the form of E=1/2mV2, it is directly proportional to the mass of the atmosphere. So for the same wind velocity the force, and consequently the pressure, will be 50 times less. | ||
===Extensive Permafrost=== | ===Extensive Permafrost=== | ||
| − | It has been suggested that much of the surface is a sort of permafrost. Heat generated by structures could cause the [[water]] or [[carbon dioxide]] in the permafrost to sublimate, resulting in settling of the ground. Any [[settlement]] on this type of ground will need to take measures to protect against this possibility. | + | It has been suggested that much of the surface is a sort of permafrost. Heat generated by structures could cause the [[water]] or [[carbon dioxide]] in the permafrost to sublimate, resulting in settling of the ground. Any [[settlement]] on this type of ground will need to take measures to protect against this possibility. The loss of CO2 or of water in the soil changes the load bearing capacity of the soil. |
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| + | === Internal pressure === | ||
| + | A unique characteristic of martian construction is that the pressure inside the building is very high compared to the pressure outside. The pressure is about 10 tonnes per meter square of wall or floor surface. So a standard 1000 square foot (100 m2) house on Mars would exert 1000 tonnes of force onto its foundations. A large dome, as often illustrated in images of martian settlements will do the same, so a 1000 foot (300m) dome would exert 150<sup>2</sup> x pi x 10 = 700 000 tonnes of force. | ||
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| + | This is why martian structures are more likely to be pressure vessels, spheres and cylinders with rounded ends, rather than domes or rectangular constructions. | ||
==Types of Foundations== | ==Types of Foundations== | ||
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==Open Issues== | ==Open Issues== | ||
| − | * How much additional force does the dust in a dust storm exert on a structure v.s. the wind alone? | + | |
| − | * How much on the surface is actually permafrost? | + | *How much additional force does the dust in a dust storm exert on a structure v.s. the wind alone? |
| − | * How deep is the bedrock in likely settlement areas? | + | *How much on the surface is actually permafrost? |
| + | *How deep is the bedrock in likely settlement areas? | ||
[[Category: Construction, Assembly, Maintenance]] | [[Category: Construction, Assembly, Maintenance]] | ||
Revision as of 10:27, 11 May 2019
Any permanent or semi-permanent structure on the surface of Mars will need some type of foundation. A foundation anchors a structure to the ground, preferably to the bedrock. This stabilizes the structure against the affects of gravity, wind, and ground movements due to changes in ground moisture (water and carbon dioxide ice).
Alternatively, many foundations are of the floating type. This means that after testing the soil, the load bearing capacity is determined and the foundation is built in order to spread the load to less than the load bearing capacity of the soil. That is the main purpose of footings under house walls, for example. In a sense, all building that are not supported directly on the bedrock 'float' on the soil.
Contents
Unique Martian Considerations
The environment of Mars presents certain unique factors for foundation design.
Reduced Gravity
The lower gravity means that Martian foundations need not be as strong or thick as terrestrial counterparts.
Low Air Pressure
Low air pressure means that the Martian winds have a greatly reduced effect upon structures compared to terrestrial winds of the same speeds.
The martian atmosphere has a density of about 2% the one of Earth. As the energy from wind transmitted to a structure is a equation in the form of E=1/2mV2, it is directly proportional to the mass of the atmosphere. So for the same wind velocity the force, and consequently the pressure, will be 50 times less.
Extensive Permafrost
It has been suggested that much of the surface is a sort of permafrost. Heat generated by structures could cause the water or carbon dioxide in the permafrost to sublimate, resulting in settling of the ground. Any settlement on this type of ground will need to take measures to protect against this possibility. The loss of CO2 or of water in the soil changes the load bearing capacity of the soil.
Internal pressure
A unique characteristic of martian construction is that the pressure inside the building is very high compared to the pressure outside. The pressure is about 10 tonnes per meter square of wall or floor surface. So a standard 1000 square foot (100 m2) house on Mars would exert 1000 tonnes of force onto its foundations. A large dome, as often illustrated in images of martian settlements will do the same, so a 1000 foot (300m) dome would exert 1502 x pi x 10 = 700 000 tonnes of force.
This is why martian structures are more likely to be pressure vessels, spheres and cylinders with rounded ends, rather than domes or rectangular constructions.
Types of Foundations
| This section of the article is incomplete or needs more detail. You can help Marspedia by expanding or correcting it. |
Piles
Wall
Slab
Footing
Open Issues
- How much additional force does the dust in a dust storm exert on a structure v.s. the wind alone?
- How much on the surface is actually permafrost?
- How deep is the bedrock in likely settlement areas?
