ADVANCED STRUCTURAL ENGINEERING

SHE Level 4
SCQF Credit Points 20.00
ECTS Credit Points 10.00
Module Code MHH223204
Module Leader Ben Zhang
School School of Computing, Engineering and Built Environment
Subject Civil Engineering and Environmental Management
Trimester
  • B (January start)

Pre-Requisite Knowledge

Structural Engineering

Summary of Content

This module is designed to enhance the structural engineering principles covered in levels 1 to 3 by considering the following topics: Design of prestressed concrete; Yield line method for design of reinforced concrete; Structural dynamics; Vector mechanics for structural analysis; Design of concrete, steel and timber structures subject to fire; Design requirements for multi-storey buildings and shear walls.

Syllabus

Prestressed concrete; Yield line method; Structural dynamics; Analysis of structural elements using vector mechanics; Thermal effects of structural fire on structural materials; Design of multi-storey buildings; Design of shear walls to stabilise tall buildings.

Learning Outcomes

;On successful completion of this module students should be able to:1. Conduct design of prestressed concrete structures;2. Design reinforced concrete floor slabs using yield line method;3. Solve dynamic problems of simple structures; 4. Design steel, concrete and timber structures that are subject to fire conditions and consider the options available to the engineer to minimise collapse due to reduced structural capacity caused by fire;5. Analyse structural elements and frames using vector mechanics;6. Assess the strengths and weakness of working as a team in completing a coordinated Group Project.

Teaching / Learning Strategy

This module includes a variety of teaching and learning methods including lectures, seminars, and tutorials. Learning and teaching strategies will be developed and implemented, appropriate to students' needs, to enable all students to participate fully in the programme.

Indicative Reading

-284 British Standards Institution. PP 1990 Structural Eurocodes: Guide to the Structural Eurocodes for Students of Structural Design, 3 rd Edition, 2010. Hurst MK. Prestressed Concrete Design, Chapman and Hall, 2001. Tedesco JW, McDougal WG and Ross CA. Structural Dynamics: Theory and Applications, Addison-Wesley, 1998. Kennedy G and Goodchild CH. Practical Yield Line Design, The Concrete Centre, 2004. Mosley WH, Hulse R and Bungey JH. Reinforced Concrete Design to Eurocode 2, 7 th Edition, Palgrave Macmillan, 2012. -284 Buchanan AH. Structural Design for Fire Safety, Wiley, 2002.

Transferrable Skills

On completing this module the student should have developed skills in analysing complex structures by breaking down to simple elements and developed mathematical models, as well as with a good understanding of the effects of fire on structures. In addition team work will develop further from the Group Project.

Module Structure

Activity Total Hours
Practicals (FT) 6.00
Seminars (FT) 6.00
Assessment (FT) 20.00
Lectures (FT) 24.00
Tutorials (FT) 12.00
Independent Learning (FT) 132.00

Assessment Methods

Component Duration Weighting Threshold Description
TS1 2.00 25.00 n/a Exam (School) - Structured Class Test on Various Structural Topics
CW1 n/a 75.00 n/a Individual Design of Prestressed Concrete, and Group Project on Structural Concrete Design