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SYLLABUS GUIDELINES


1 Discipline - Advanced Finite Elements Analysis (Linear)
2 Degree program in - Construction
3 Profile - Civil Engineering
4 Qualification (degree) - Master
5 Mode of study - Full-time
6 Overall workload (ECTS) - 3
7 Semester - 1st 
8 Module type - Compulsory
9 Summative assessment - Credit
10 Aims
The course aims: - to provide comprehensive and quality training to prepare skilled and competitive specialists in the field of design, construction and reconstruction of buildings and structures on the basis students ' personal qualities development.
- to form universal/general and professional/specific competencies in accordance with the Federal State Educational Standard of Higher Education requirements for the field of study "Construction" (code 08.04.01).

11 Competences to be developed:


- to apply techniques of buildings’, constructions’ and their structural components’ design and monitoring including methods of settlement substantiation with the use of universal and specialized software complexes and systems of the automated designing;
- to develop methods, plans and programs of scientific research and development, to prepare works for performers, to organize experiments and tests and to generalize their results;
- to develop physical and mathematical models of phenomena and objects related to the profile.

12 Learning outcomes  

Upon successful completion of the discipline students will be able to:

- to apply analysis and simulation systems currently used in design and analysis engineering;
- apply advanced skills and techniques of Finite Element Analysis to solve practical case studies and complex design problems;
- demonstrate a critical analysis and assessment of a Finite Element Analysis;
- undertake complex analytical solutions to problems using advanced FEA involving Linear Elastic Small Displacement Problems and Eigenvalue and Eigenvector Vibration and Buckling;
- undertake complex analytical solutions using advanced FEA for geometric and material non linearity and time dependencies.

13 Bibliography

1. Darkov A.V., Shaposhnikov N.N. Stroitel'naja mehanika, SPb.: Lan', 2010
2. Sinicyn A. Metod konechnyh jelementov, 2003
3. Ljapin A.A., Shiljaeva O.V. Metod konechnyh jelementov v stroitel'stve, Rostov-na-Donu, Rostovskij gosudarstvennyj stroitel'nyj universitet, 2011
4. Ignat'ev V.A., Metod konechnyh jelementov v zadachah stroitel'noj mehaniki, Saratov: Saratovskij politehnicheskij institut, 1980
5. Litvinov S.V., Jazyev B.M., Metod konechnyh jelementov v stroitel'noj mehanike i teorii uprugosti, Rostov-na-Donu, Rostovskij gosudarstvennyj stroitel'nyj universitet, 2013
6. Panasjuk L.N., Kravchenko G.M., Informacionnye tehnologii v stroitel'stve, Rostov-na-Donu, Rostovskij gosudarstvennyj stroitel'nyj universitet, 2014
7. Zienkiewicz O.C., Taylor L.R. The Finite Element Method. Volume 1. The Basis, 2000
8. Numerical Methods in Finite Element Analysis, Bathe K.-J., Wilson E.L.
9. The finite element method for solid and structural mechanics, Zienkiewicz O.C., Taylor R.L., Fox D.D.

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