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| Unit name |
Advanced Structural Analysis |
| Unit code |
CENG30010 |
| Credit points |
20 |
| Level of study |
H/6
|
| Teaching block(s) |
Teaching Block 4 (weeks 1-24)
|
| Unit director |
Professor. Macdonald |
| Open unit status |
Not open |
| Pre-requisites |
CENG25200 Computational Modelling 2 (or equivalent)
|
| Co-requisites |
None
|
| School/department |
School of Civil, Aerospace and Design Engineering |
| Faculty |
Faculty of Engineering |
Description including Unit Aims
Analysis of complex engineering problems requires a variety of different tools. In this unit we will develop two different analysis approaches – plastic analysis and finite element analysis – and show how they can be applied to the analysis of simple and complex structures. Also, in some situations dynamic behaviour become important. The unit will introduce methods of how to analyse the dynamic response of structures.
The unit aims are:
- To develop students’ understanding of the finite element method and its use in the analysis and design of structures.
- To equip students to use the finite element method to estimate the response of structures to realistic loads.
- To introduce the upper and lower bound theorems of plasticity and their role in the analysis and design of safe structures.
- To equip students with methods of plastic analysis to calculate the collapse loads of statically indeterminate structures such as continuous beams, frames and slabs.
- To introduce the concepts of structural dynamics of single and multi-degree-of-freedom structural systems subject to free vibration and simple excitation.
Intended Learning Outcomes
By the end of the course, successful students will;
- Demonstrate the ability to apply knowledge of the basic concepts of finite element analysis.
- Demonstrate the ability to apply knowledge of the basic concepts of plastic analysis in the analysis and design of safe structures.
- Demonstrate the ability to apply knowledge of the basic concepts of structural dynamics.
Teaching Information
Teaching will be delivered through a combination of synchronous and asynchronous sessions, which may include lectures, practical activities supported by drop-in sessions, problem sheets and self-directed exercises.
Assessment Information
Short coursework assignment (1 week) – held during January exam period (60%) Coursework (40%)
Reading and References
- R.C. Coates, M.G. Coutie, F.K. Kong, Structural Analysis, Taylor & Francis, 1987.
- J, Fish, T Belytschko, A First Course in Finite Elements, Wiley, 2007.
- R.D. Cook, Finite Element Modelling for Stress Analysis, Wiley, 1995.
- S.J. Moy, Plastic Methods for Steel and Concrete Structures, Palgrave, 1996.
- M. Williams, Structural Dynamics, CRC Press, 2016.
