What Is Engineering Geology?

Engineering geology is a branch of geology that mainly studies the interaction between engineering activities and the geological environment. It applies geological theories and methods to the practice of engineering activities. Through engineering geological surveys and comprehensive theoretical studies, it evaluates the engineering geological conditions of the engineering jurisdiction, that is, engineering sites, solves engineering geological problems related to engineering activities, predicts Demonstrate the occurrence and development of various engineering geological problems in the area of engineering activities, and propose technical measures for improvement and prevention, to provide necessary geotechnical data for the planning, design, construction, use and maintenance of engineering activities. Engineering geology includes the basic content of part j of engineering geology, engineering geological analysis, and engineering geological survey. The task of engineering geology is to study the engineering geological properties of geotechnical soils, the causes of formation of these properties, and their changes under the influence of natural or engineering activities; the task of engineering geological analysis is to study engineering geological problems in engineering activities, The geological conditions, mechanical mechanisms, and development and evolution laws of these problems are in order to correctly evaluate and effectively prevent their adverse effects on engineering activities; the task of engineering geological survey is to explore the methods of engineering geological investigations in order to effectively identify relevant engineering activities. Various geological factors and geological conditions. [1]

Engineering geology The science that studies geological issues related to human engineering and construction activities. A branch of geology. The purpose of the study is to identify
Engineering geology was conceived and sprouted from the development of geology and the accumulation of experience in human engineering activities. Before the 17th century, many countries successfully built great buildings that are still famous today, but people's consideration of the geological environment in architectural practice depends entirely on the individual's perception of the builder. After the 17th century, due to the industrial revolution and the development of construction,
It can be summarized into 4 aspects: Research and construction areas and buildings
Including geological methods, experimental and testing methods, calculation methods and simulation methods. Geological methods, natural history
Engineering geology should analyze and predict the various geological effects and
Engineering geology should also study the regional distribution characteristics and laws of engineering geological conditions, and predict their
Engineering Geology Related Books
Changes in natural conditions and engineering construction activities, and possible geological effects, evaluate its suitability for engineering construction. Due to the different structures and functions of various engineering buildings and the environment in which they are located, the geological effects and engineering geological problems that may occur and must be studied often have different focuses. Accordingly, engineering geology is often divided into water conservancy and hydropower engineering geology, road engineering geology, mining engineering geology, seaport and marine engineering geology, and urban engineering geology.

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