Course is active from 01.10.2007..
Enabling students to analyze complex engineering systems and the calculation of constructive elements. Use the finite element method for determining stresses and strains.
Ability for independent and creative using of knowledge and skills, solving problems in designing structural elements in engineering.
The theory of open thin-walled sections-basic ideas. Characteristics of thin-walled sections. Sector coordinates. Bending and torsion of the open thin-walled beams. Torsion of the closed thin-walled beams. Differential equations of a thin-walled rod. Special cases. Buckling. Lateral buckling of beams. Stresses in plates. Bulging of the plates. Statically indeterminate systems. Methods of solving. Matrix formulation of the problem. Use of the finite element method.
Lectures. Auditory exercises. In lectures, theoretical part of the material accompanied by characteristic examples. Exercises to work on additional tasks that extend the material in class. Consultation.
| Authors | Name | Year | Publisher | Language |
|---|
| Atanacković, T., Novaković, B. | Teorija elastičnosti | 2017 | Fakultet tehničkih nauka, Novi Sad | Serbian language |
| N.W. Murray | Introduction to the Theory of Thin- Walled Structures | 1984 | English Book | English |
| Sekulović, M. | Matrična analiza konstrukcija | 1991 | Gradjevinska knjiga, Beograd | Serbian language |
| C.F. Kollbrunner, N. Hajdin, D. Krajcinovic | Matrix analysis of thin-walled structures | 1969 | Verlag Leeman, Zuerich | English |
| A. Gjelsvik | The theory of thin-walled bars | 1981 | John Whiley & Sons, New York | English |
| A.P. Filin | Prikladnaja mehanika tverdogo deformireumogo tela, tom I | 1975 | Nauka, Moskva, | Russian language |
| AGOSTON, Max. K. | Computer graphics and geometric modeling | 2005 | London: Springer | English |
| Norton, R.L. | Design of Machinery : an introduction to the synthesis and analysis of mechanisms and machines | 2004 | McGraw-Hill, Boston | English |
| Hibbeler, Russell C | Engineering Mechanics | 2016 | Pearson Education | English |
| NORTON, Robert L. | Machine design | 2013 | New Jersey: Prentice Hall | English |
| ASHBY, Michael F. | Materials Selection in Mechanical Design | 2016 | Amsterdam: Elsevier | English |
| Chironis N.P., Sclater N. | Mechanisms and Mechanical Devices Sourcebook | 2001 | McGraw-Hill | English |
| T. M. Atanackovic | Stability Theory of Elastic Rods | 1997 | World Scientific | English |
| Atanackovic T. M., Guran A. | Theory of Elasticity for Scientists and Engineers | 2000 | Birkhauser, Boston | English |
| J. Uicker, Jr., Gordon R. Pennock, and Joseph E. Shigley | Theory of Machines and Mechanisms, 5th ed. | 2016 | Oxford University Press | English |
| Course activity | Pre-examination | Obligations | Number of points |
|---|
| Test | Yes | Yes | 10.00 |
| Test | Yes | Yes | 10.00 |
| Homework | Yes | Yes | 5.00 |
| Homework | Yes | Yes | 5.00 |
| Written part of the exam - tasks and theory | No | Yes | 40.00 |
| Oral part of the exam | No | Yes | 30.00 |
| Name and surname | Form of classes |
|---|
 | | Lectures |
| | Practical classes |
