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What does the civil construction industry need to learn?
Compulsory course 1. Engineering Mathematics is a course with 4 credits, 72 class hours and one semester. This course is a compulsory basic course for all majors of civil engineering, mainly studying the related knowledge of matrix, linear equations, probability theory and mathematical statistics. 2. Civil Engineering Mechanics (2) This course has 5 credits, 90 class hours and one semester. This course is a compulsory basic course for all majors in civil engineering. Through the study of this course, students can master the basic concepts, theories and methods of engineering mechanics, and have certain analytical ability and the ability to solve practical problems. The main contents of the course are: Static Analysis-Arbitrary Force System in Space, Gravity Center Stability Calculation-Stability of Compression Bar, Structural Stability Calculation and Motion Analysis-Point Motion, Basic Motion of Rigid Body, Composite Motion of Points, Dynamic Analysis of Rigid Body Plane Motion-Differential Equation of Particle Motion, Momentum Theorem, Momentum Theorem, Kinetic Energy Theorem, D'Alembert Theorem, Free Vibration of Single Degree of Freedom System, Structural Dynamic Characteristics and Dynamic Response. 3. Fluid Mechanics course has 4 credits, 72 class hours and one semester. Fluid mechanics is a major technical basic course for civil engineering majors. Through the study of this course, students can master the basic laws, basic theories and analysis methods of macro-movement of water flow, understand the characteristics of different water flows, learn the hydraulic calculation methods in common civil engineering, and have preliminary experimental measurement skills, which will lay the foundation for studying subsequent courses and engaging in professional and technical work. The main contents of this course include: physical properties of fluid, hydrostatics, foundation of fluid dynamics, flow resistance and head loss, steady flow of orifices, nozzles and pressurized pipes, steady flow of open channels, seepage law, wells and water collection corridors, similarity principle and dimensional analysis, and measurement of flow motion parameters. Prerequisites: advanced mathematics, civil engineering mechanics (1). 4. Engineering Economics and Management This course has 4 credits, 72 class hours and one semester. This course is the main professional course of civil engineering specialty and a required course for civil engineering specialty (undergraduate). Through the study of this course, students are required to make overall arrangements for the limited human, financial, material and other resources in the system, to provide decision makers with an optimized scheme for effective management, and to analyze, evaluate and synthesize various elements and schemes of the system by using quantitative methods to design the optimal system. The main contents of the course: the position and role of the construction industry in the national economy; Capital construction procedures; Time value of funds; Feasibility study of construction project; Technical and economic analysis methods of construction projects; Forecasting and decision-making techniques; Technical and economic evaluation of architectural design scheme; Value engineering; Bidding for construction projects; Planning management, project management, technology management, resource management and quality management of construction enterprises; Cost management and economic accounting of construction enterprises: construction project supervision. Pre-courses of this course: civil engineering materials, engineering measurement, civil engineering mechanics, etc. 5. Building structure test course has 3 credits, 54 class hours and one semester. This course is the main specialized course of civil engineering specialty. The purpose of the course is to understand the equipment and instruments of structural inspection and master the commonly used principles and methods of structural inspection. Main contents of the course: structural detection design; Loading equipment and measuring instruments for structural tests; Static test of structure under monotonic loading: Static test of structure under low cyclic loading: dynamic test of structure; Model test; Non-destructive testing techniques such as structural tests. This course is a prerequisite: reinforced concrete structure and high-rise building structure. The elective course limit of construction engineering is 1. Concrete structure is a 4-credit, 90-hour, one-semester course. This course is a follow-up course of concrete structure design principles. Mainly cultivate the ability of multi-storey building structure design, and lay a certain foundation for correctly handling common problems in construction and project management. Main contents of the course: single-storey factory building structure; Multi-storey frame structure residence. Pre-courses of this course: principles of concrete structure design; The follow-up course of this course: high-rise building structure. 2. The steel structure course has 4 credits, 72 class hours, and is offered for one semester. This course is the main specialized course of civil engineering specialty. The main task of this course is to enable students to understand the characteristics of steel structures, master the general concepts and basic knowledge of the basic theory of steel structures, preliminarily master the design of common steel members and common steel roofs, and lay a foundation for solving more complicated steel structures. Main contents of the course: steel structure materials; Connection of steel structure; Axial loading member; Bending member; Tension bending and compression bending members; Roof structure. Pre-courses of this course: civil engineering mechanics, engineering survey, etc. Elective course 1. Flexibility is a course with 3 credits and 54 hours. Set a semester. This course is a basic technical course for civil engineering majors. Through the study of this course, students can master the basic principles and methods of elastic range, internal force and displacement calculation in deformation, have certain ability to analyze and solve practical problems, and lay a theoretical foundation for subsequent courses. Main contents: the basic theory of plane problem, the solution of space problem, equal section torsion, energy principle and variational method, thin plate bending problem. 2. Structural Calculation Software This course has 2 credits, 36 hours of class and 20 hours of computer practice. Set a semester. This course is a specialized course for civil engineering majors. To enable students to master the compiling principle of structural calculation software compiled according to the current domestic regulations, and to judge, select, design and apply the input and output results. Lay the foundation for the later adaptation work. The main contents of the course: fundamentals and principles of programming; Simplify the calculation model of the program; The operation of program input data (preprocessing); Judgment, selection, design and application of program input results; Computer operation. 3. Steel-concrete composite structure This course has 3 credits, 54 class hours and one semester. This course is the main specialized course of civil engineering specialty. The purpose of this course is to broaden students' professional knowledge and cultivate their ability to analyze and design composite structures on the basis of studying concrete structures and steel structures. Course requirements, through learning to understand the characteristics, working principle, calculation method and structural requirements of steel-concrete composite structures. Course content: the form of steel-concrete composite structure, the working principle of steel and concrete, the calculation of steel-concrete composite beam and bearing capacity, the design of shear connectors, deformation calculation, profiled steel plate-concrete composite slab, etc. 4. Special Structure This course has 3 credits, 54 class hours and one semester. This course is an optional course for civil engineering majors. Through the study of this course, students can master the types, basic theories and design methods of special reinforced concrete structures, and have the ability to solve practical engineering problems. The main contents of the course: design and construction of retaining wall-cantilever retaining wall and cantilever retaining wall; Design and construction of liquid storage tanks-circular liquid storage tanks and rectangular liquid storage tanks; Design and construction of water tower-water tank, support and foundation; Silos-calculation and construction of rectangular silos and circular silos: temperature stress of chimney brick smoke chamber, chimney design and structural calculation; Simplify the calculation model of the program; The operation of program input data (preprocessing); Judgment, selection, design and application of program output results; Computer operation. 5. High-rise building construction course has 4 credits and 72 class hours, with one semester. This course is a specialized course for civil engineering majors. Through the study of this course, students can master the theoretical calculation and common construction methods related to high-rise building construction and long-span building construction. You should also understand and be familiar with the relevant norms. The main contents of this course include: high-rise building foundation pit excavation, high-rise building foundation engineering, high-rise building formwork engineering, high-rise reinforced concrete structure construction, high-rise rigid structure construction, high-rise building waterproof engineering, high-rise building decoration engineering, long-span structure construction and so on. 6. The course of Underground Building and Structure has 4 credits, ***72 class hours, one semester. This course is an optional course for civil engineering majors. Through the study of this course, students can master the basic theory, design method and structure of underground buildings and structures, and have the ability to solve practical engineering problems. The main contents of the course include: rail structure engineering, rail transit line design, underground railway structure design and construction, elevated railway structure design and construction, and environmental assessment of rail transit engineering. Construction management elective course limit 1. Concrete structure has 4 credits, 90 class hours and one semester. This course is a follow-up course of concrete structure design principles. Mainly cultivate the ability of multi-storey building structure design, and lay a certain foundation for correctly handling common problems in construction and project management. Main contents of the course: single-storey factory building structure; Multi-storey frame structure residence. The prerequisite course of this course: concrete structure design principle. Follow-up lesson of this course: high-rise building structure. 2. High-rise Building Construction This course has 4 credits, 72 class hours, and is offered for one semester. This course is a specialized course for civil engineering majors. Through the study of this course, students can master the theoretical calculation and common construction methods related to high-rise building construction and long-span building construction. You should also understand and be familiar with the relevant norms. The main contents of this course include: high-rise building foundation pit excavation, high-rise building foundation engineering, high-rise building formwork engineering, high-rise reinforced concrete structure construction, high-rise rigid structure construction, high-rise building waterproof engineering, high-rise building decoration engineering, long-span structure construction and so on. Elective course 3. International project contracting is a 3-credit, 54-hour and one-semester course. This course is a professional basic course for civil engineering majors. Through the study of this course, students can master the basic concepts and basic operation methods of international contracts. Have certain ability to solve practical problems. The main contents of the course include: introduction to international project contracting, international project bidding, preliminary work of project bidding, calculation of project bidding quotation, quotation decision, bidding documents and quotation examples, negotiation and signing of project contracting, management of international project implementation stage, material procurement and management of international project, risks and insurance of international project contracting, claims in international project contracting, dispute settlement in international project contracting, etc. 4. Real Estate Management and Management This course has 4 credits, 72 class hours and one semester. This course is a professional basic course for civil engineering majors. Through the study of this course, students can master the management strategy and concept of modern real estate and the property management of modern real estate. The main contents of the course include: introduction to real estate operation and management, the relationship between real estate industry and financial management, real estate investment analysis, and the integration of real estate development enterprises and property management. 5. Inquiry and Evaluation of Civil Engineering This course has 3 credits, 54 class hours and one semester. This course is an elective course of the building management course group. Through the study of this course, students can understand the basic knowledge of engineering pricing, master the basic principles and methods of engineering pricing, cultivate their own engineering pricing ability and be skilled in engineering pricing. Main contents of the course: basic knowledge of engineering valuation; Engineering cost structure; Engineering valuation basis; Engineering survey; Engineering inquiry; Investment estimation; Design budget estimate; Construction drawing budget; Bid quotation; Project settlement and final accounts of completion. Pre-courses of this course: engineering structure and architectural architecture; Construction technology and construction organization design. 6. Real Estate Regulations This course has 3 credits, 54 class hours and one semester. This course is an elective course of the building management course group. This course requires students to master the main contents of national real estate policy and urban real estate management law, and to carry out real estate management activities according to law in their future work. The main contents of the course are: an overview of the real estate legal system, China's land use system, the legal provisions of real estate development, demolition, repair, transaction and mortgage, the legal provisions of real estate transfer, housing lease and real estate inheritance, the legal provisions of property management and real estate ownership registration management, and the legal provisions of real estate taxation. 7. Real estate appraisal is a 3-credit course, with 54 class hours and one semester. This course is an elective course of the building management course group. Students are required to master the theory and method of real estate appraisal and have practical operation ability of real estate appraisal. The main contents of the course include: real estate price, real estate appraisal principle, real estate appraisal procedure, market comparison method, cost method, income method, hypothetical development method, route price method and long-term trend method. Pre-courses: civil engineering inquiry and valuation, real estate laws and regulations. 8. International Finance and Trade is a 3-credit course, with 54 class hours and one semester. This course is a professional basic course for civil engineering majors. Through the study of this course, students can master the basic theories and knowledge of international finance and international trade. This course consists of two parts, the first part is international finance, and the second part is international trade. The first part mainly includes: balance of payments, foreign exchange and exchange rate, international reserves, foreign exchange market and foreign exchange business, foreign exchange risk and risk management, international settlement, international financial market, international capital flow, international credit, international monetary system and international financial institutions. The next part mainly includes: the basic theory of international trade, the theory of free trade and its new development, the theory of protected trade and its contemporary new development, international trade policy, tariff measures, non-tariff measures, trade treaties and agreements, the General Agreement on Tariffs and Trade and the World Trade Organization, economic integration and international capital flows, international intangible trade, multinational companies and so on. 9. The course of foreign-related accounting is 4 credits, 72 class hours, and is offered for one semester. This course is a professional basic course for civil engineering majors. Through the study of this course, students can not only master the basic norms and methods of general accounting, but also increase their knowledge of foreign economic contract law and foreign tax law. The main contents of this course include: introduction to accounting, basic accounting methods, asset-liability management, owner's equity management, income, expense and profit management, sales forecast, management and investment decision-making, cost control, foreign-related economic contract law and foreign-related tax law. Road and bridge elective course 1. Hydrology of Bridges and Culverts is a course with 2 credits, 36 class hours and one semester. The main contents of the course include: basic knowledge of river hydrology, calculation of design flow of large and medium-sized bridges, calculation of aperture of large and medium-sized bridges, pier scouring, bridge site selection and hydrological calculation of renovation buildings and small bridges and culverts. 2. Earthquake resistance of bridge structure: 2 credits, 36 class hours, one semester. The main contents of the course include: introduction to earthquake resistance of bridges, dynamic foundation of earthquake resistance of bridge structures, response spectrum method for earthquake response analysis of bridges, time-history analysis of spatial nonlinear earthquake response of bridge structures, earthquake response analysis of long-span bridges, earthquake response analysis of long-span cable-stayed bridges, earthquake response analysis of long-span suspension bridges, earthquake response analysis of long-span arch-beam structures, earthquake response analysis of urban viaducts and overpass bridges, ductile earthquake-resistant design of bridges, shock absorption, isolation and structural control of bridges. 3. Traffic Engineering is a 2-credit course, with 36 hours of class time and one semester. The main contents of the course: The first part is the basic theory, focusing on the traffic components, including the traffic characteristics of people, vehicles and roads and the basic theory of traffic engineering; The second part is the application of traffic engineering. Starting with the investigation, data sorting and analysis of traffic data, it systematically expounds traffic planning, traffic management and traffic control, traffic safety, traffic environmental protection and parking lot. 4. Expressway is a course with 2 credits, 36 class hours and one semester. The main contents of the course: introduce the planning, route selection, linear design elements of horizontal and vertical sections, linear comprehensive design, interchange design, and briefly describe the facilities along the expressway. 5. Urban Road Engineering course has 3 credits, 54 class hours and one semester. Main contents of the course: This course systematically describes the design theory and method of urban road plane, longitudinal section, intersection, three-dimensional intersection and drainage. At the same time, the principles and policies of urban road construction, road network planning, red line width design, traffic volume estimation and road public facilities design, which are closely related to urban road design, are also comprehensively expounded. I hope it helps you! !