2021/22 Undergraduate Module Catalogue
CIVE1360 Structural Design and Analysis
20 creditsClass Size: 200
Module manager: Dr Suhaila Mattar
Taught: Semesters 1 & 2 (Sep to Jun) View Timetable
Year running 2021/22
Module replacesCIVE1121 - Fundamentals of Engineering Mechanics and Stress Analysis
This module is not approved as a discovery module
Module summaryThis module develops the fundamental principles of elastic stress and strain; elasticfailure; plasticity; plastic failure; ductility; stability; stiffness and equilibrium at anintroductory level. These are the underpinning principles used to determine and describe thebehaviour of a variety of structural and architectural forms such as building frames,trusses, arches, cable structures and beams.The behaviour of a range of structural systems is examined with regard to load transfer. Themechanical and physical properties of different construction materials used in structuralsystems is also explored to determine how such properties relate to aspects of buildingperformance such as deflection control and safety. The knowledge and understanding ofthe fundamental principles of building structure behaviour make a major contribution to thedevelopment and critical evaluation of alternative forms of construction and, as such,are fundamentally important aspects of building design. Topics covered include:1. Principles of structural engineering;2. Conceptual design - load paths, structural forms and nature of loads; 3. Statics - the definition of equilibrium, forces, stresses and strains; the Mohr's circle of stress;the concept of Elasticity and plasticity; Hooke¿s law and the behaviour of simple springsystems; 4. Resolution and addition of forces, analysis of pin-jointed frames; 5. Bending moments and shear forces - Gallileo's analysis of a beam, illustrated withBM and SF diagrams; 6. Centroids of area, the neutral axis and second moments of area; 7. Stress and strain in bending beams; 8. Deflection of Symmetrical Section Beams. Double integration method. Macauley'smethod; 9. Combined bending and axial load. Core of a rectangular section;10. Shear stress distribution in symmetrical cross-section beams.Typical reading materials for this module include:Structural Mechanics, R. Hulse. and J.A. Cain2nd Ed. Palgrave.Structural Mechanics. R Hulse and J.A. Cain.Worked Examples. PalgraveStructural and Stress Analysis , T. H. G. MegsonStructural and stress analysis : theories,tutorials and examples, J.Q. YeStructures : theory and analysis, M.S.Williamsand J.D. Todd. Macmillan Applied mechanics, 3rd ed., J. Hannah and M.J.Hillier. Longman Structural Mechanics : a revision of Structuralmechanics by W. Morgan and D.T. Williams, 5thEd. Harlow:LongmanUnderstanding Structures ¿ Analysis, materials,design, D. SewardDesign of Structural Elements to Eurocode ,William M C MacKenzie , 2nd Ed , Palgrave
ObjectivesOn completion of this module students should understand the fundamental principles of mechanics and structural design, and possess the basic skills in structural and stress analysis and design that allow them to study more advanced courses in levels 2 and 3.
On completion of this module students will be able to understand the fundamental principles of mechanics and structural design, and possess the basic skills in structural and stress analysis and design that allow them to study more advanced courses in levels 2 and 3.
In addition, students completing this module will also have gained the knowledge, understanding, skills or abilities that contribute to achieving the following ARB General Criteria for Part 1:
• The ability to understand the constructional and structural systems, the environmental strategies and the regulatory requirements that apply to the design and construction of a comprehensive design project; GC1.2
• The ability to develop a conceptual and critical approach to architectural design that integrates and satisfies the aesthetic aspects of a building and the technical requirements of its construction and the needs of the user; GC1.3.
• An understanding of the investigation, critical appraisal and selection of alternative structural, constructional and material systems relevant to architectural design; GC8.1.
• An understanding of strategies for building construction, and ability to integrate knowledge of structural principles and construction techniques; GC8.2.
• An understanding of the physical properties and characteristics of building materials, components and systems, and the environmental impact of specification choices; GC8.3.
1. Principles of structural engineering;
2. Conceptual design - load paths, structural forms and nature of loads;
3. Statics - the defintion of equilibrium, forces, stresses and strains; the Mohr's circle of stress; the concept of Elasticity and plasticity; Hookes law, and the behaviour of simple spring systems;
4. Resolution and addition of forces, analysis of pin-jointed frames;
5. Bending moments and shear forces - Gallileo's analysis of a beam, illustrated with BM and SF diagrams;
6. Centroids of area, the neutral axis and second moments area;
7. Stress and strain in bending beams;
8. Deflection of Symmetrical Section Beams. Double Integration Method. Macauley's Method;
9. Combined Bending and Axial Load. Core of a Rectangular Section;
10. Shear Stress Distribution in Symmetrical Section Beams;
11. Simple Beam design, (Rectangular and “I” Sections) : Simplified Eurocode rules. Self-weight calculation , Engineer’s Theory of Bending
12 Introduction to simple frames : Static determinacy of plane frames. Analysis, bending and deflected shape of plane frames.
13- Elastic buckling of axially loaded compression members ; Euler buckling formula (cont’d from Wk 3).Slenderness ratio and radius of gyration. Behaviour of slender and short/stocky members
|Delivery type||Number||Length hours||Student hours|
|Private study hours||114.00|
|Total Contact hours||86.00|
|Total hours (100hr per 10 credits)||200.00|
Private study- Study the materials and lecture notes provided (in paper or online);
- Practice the questions in the problem sheets; practice extra examples given in the example classes;
- Review the module for the self assessed MCQs and the final exam.
Opportunities for Formative FeedbackThree items of course work will be assessed throughout the period of the module, feedbacks and solutions will be provided;
Worked examples will be provided on the VLE for students' practices and the access will be monitored;
One class test will be carried out in January as part of the coursework for providing students summative feedback on their performance.
A 3 hour examination will conclude the outcome of the module.
Methods of assessment
|Assessment type||Notes||% of formal assessment|
|Problem Sheet||Problem Sheet 1||5.00|
|Problem Sheet||Problem Sheet 2||5.00|
|Problem Sheet||Problem Sheet 3||5.00|
|In-course Assessment||In-class Test||15.00|
|Total percentage (Assessment Coursework)||30.00|
Normally resits will be assessed by the same methodology as the first attempt, unless otherwise stated
|Exam type||Exam duration||% of formal assessment|
|Online Time-Limited assessment||3 hr||70.00|
|Total percentage (Assessment Exams)||70.00|
Resit: 100% online time-limited assessment
Reading listThe reading list is available from the Library website
Last updated: 30/06/2021 16:19:55
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