Subject 'Strength of Materials'

Year:   2010/2011    2011/2012    2012/2013    2013/2014    2014/2015    

In the building act it is said, that actions and influences on a building may not cause neither a collapse nor too big deformations and cannot pose a threat to a persons’ life, health, property or environment. The aim of this course is to tie the knowledge gained in theoretical mechanics with the size and material of the element. Since a building may not collapse or deform too much, then the main question to be answered is – what dimensions and material should the element be, to assure safety.

Introduce the principles of structural analysis and necessary calculations. The first topic is how to find stresses in different work conditions and how to check the ultimate limit state (ULS) condition. Structural stability and it’s effects on ULS is also studied. The last topic is the check of serviceability limit state (SLS) – in other words how to ensure deformations are not too big.

In the end of the course the student:
1) is able to find the cross-sectional area’s characteristics
2) is able to find stresses in different work conditions
3) knows how to apply the ultimate limit state condition and solve corresponding exercises
4) understands how and what kind of deformatations take place in different work conditions and how to ensure, that they are not too big (SLS)
5) knows how stability affects the carrying capacity and how to take it into account
6) Can analyse and evaluate if the result is realistic

12 weeks of lectures (2 hours per week) + independent work (exercises)

1) Rohusaar, J. (2006). Teoreetiline mehaanika. Tln: Tallinna Tehnikakõrgkool, 102 lk. või Rohusaar, J. (2011). Tehniline mehaanika I. Teoreetiline mehaanika. Staatika. Tln: Tallinna Tehnikakõrgkool, 108 lk.
2) Rohusaar, J. (2005). Tugevusõpetus ehitajatele. Tln: Tallinna Tehnikakõrgkool, 112 lk. või Rohusaar, J. (2008). Tugevusõpetus ehitajatele. Tln: Tallinna Tehnikakõrgkool, 112 lk.
3) Rohusaar, J. (2008). Tugevusõpetuse näiteülesanded. Tln: Tallinna Tehnikakõrgkool, 132 lk.
4) Ehituskonstruktori käsiraamat. (2010). Toimetanud T. Masso. Tln: Ehitame, 576 lk.
5) Jürgenson, A. (1985). Tugevusõpetus. Tln: Valgus, 458 lk.

An exam consisting of theoretical questions and exercises. During the lectures it is possible to gather extra points (bonus points) with real life examples, exercises and group work (optional).

Tugevusõpetus EA21 K.Lellep

2014: RA  

2013: RA  

2012: RA  

2011: RA  

2010: RA  

2009: RA