Geotech engineering forms part of civil engineering. It is the study of earth materials and its behavior. Persons involved in this field examine rock and soil layers to assess its chemical and physical properties. They use this information to design foundations and other structures, such as roads and buildings.
The main purpose of this form of engineering is the design of stabilization systems for unstable soil. This is completed to ensure that buildings placed on unstable soil become and remain stable over a period of time. It is used to prevent the negative impact events such as earthquakes may have on major road structures. The job scope may also include assessing underwater soil before construction of marinas and offshore platforms.
The examination process in geotech engineering starts with a detailed investigation into the subsurface. Samples of soil are extracted using pits and bores. The extracted soil will be examined by the engineers. During the examination process, the engineers will look for air or rock pockets, measure the stability level of the soil and determine the content of any chemicals that are in the soil.
This type of investigation allows the engineer to determine the impact disturbance of the soil will have on the environment. It also allows him or her to determine the appropriate steps to be taken to prepare the relevant site for potential construction.
When the initial tests have been completed, the results will be used for the design of stable foundations. The foundations and footings are generally made up of concrete, steel or masonry. The structures are placed below ground as support for the building. The engineer will be required to make accurate calculations regarding the exact weight and load of all building materials, along with the number of persons who will use the building.
Settlement of the building and soil must be taken into account during the calculation. The impact of weather on the design and the movement of the ground should also be considered. The basic rule is that the more unstable the soil, the more complex and the bigger the system's foundation will have to be.
Geotechnical engineers are also involved in the design of support structures for dams, tunnels and roads. Once excavation of the soil has started, it is necessary to implement support systems to prevent the remaining soil from caving in. This may require the installation of steel or concrete retaining walls. The engineering team could make use of steel pins or tie-backs to connect stable portions of earth to unstable portions.
To enter the arena of geotech engineering, it is required that you complete at least an undergraduate degree. Certain universities offer this as a specialized degree, but most institutions simply offer a civil engineering degree. Once you have graduated, you will have to secure a job where a licensed engineer acts as your supervisor. If you wish to circumvent the supervision period, you can acquire a license in your field. The licensing process requires a certain amount of practical experience and passing an examination which has been administered by the state.
The main purpose of this form of engineering is the design of stabilization systems for unstable soil. This is completed to ensure that buildings placed on unstable soil become and remain stable over a period of time. It is used to prevent the negative impact events such as earthquakes may have on major road structures. The job scope may also include assessing underwater soil before construction of marinas and offshore platforms.
The examination process in geotech engineering starts with a detailed investigation into the subsurface. Samples of soil are extracted using pits and bores. The extracted soil will be examined by the engineers. During the examination process, the engineers will look for air or rock pockets, measure the stability level of the soil and determine the content of any chemicals that are in the soil.
This type of investigation allows the engineer to determine the impact disturbance of the soil will have on the environment. It also allows him or her to determine the appropriate steps to be taken to prepare the relevant site for potential construction.
When the initial tests have been completed, the results will be used for the design of stable foundations. The foundations and footings are generally made up of concrete, steel or masonry. The structures are placed below ground as support for the building. The engineer will be required to make accurate calculations regarding the exact weight and load of all building materials, along with the number of persons who will use the building.
Settlement of the building and soil must be taken into account during the calculation. The impact of weather on the design and the movement of the ground should also be considered. The basic rule is that the more unstable the soil, the more complex and the bigger the system's foundation will have to be.
Geotechnical engineers are also involved in the design of support structures for dams, tunnels and roads. Once excavation of the soil has started, it is necessary to implement support systems to prevent the remaining soil from caving in. This may require the installation of steel or concrete retaining walls. The engineering team could make use of steel pins or tie-backs to connect stable portions of earth to unstable portions.
To enter the arena of geotech engineering, it is required that you complete at least an undergraduate degree. Certain universities offer this as a specialized degree, but most institutions simply offer a civil engineering degree. Once you have graduated, you will have to secure a job where a licensed engineer acts as your supervisor. If you wish to circumvent the supervision period, you can acquire a license in your field. The licensing process requires a certain amount of practical experience and passing an examination which has been administered by the state.
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