ES3D1-15 Concrete Structures
Introductory description
ES3D1-15 Concrete Structures
Module aims
The design of concrete structures is a main stream activity of professional civil engineers. The module aims at developing ability to conduct structural design of reinforced concrete elements (slabs including two way slabs and flat plates, beams and columns).
Outline syllabus
This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.
Design process; structural form and action; choice of material; uncertainties in design: partial safety factors. Limit States.
Design of reinforced concrete beams to ULS: design assumptions; resistance to bending; stress and strain blocks; design formulae for singly and doubly reinforced rectangular sections; examples.
Design of T- and L-beam sections in bending; examples
Design for shear; truss analogy; examples
Serviceability limit state (SLS): elastic theory; deflections, cracking; bond and anchorage; calculation and control of crack widths; examples
Design of reinforced concrete columns; axially loaded short columns; eccentric load; principles of column interaction diagrams; slender columns; biaxial bending; examples.
Reinforced concrete slabs; one-way and two-way spanning elements, flat slabs. Shear in slabs: punching shear; examples.
Learning outcomes
By the end of the module, students should be able to:
- Communicate the relationship between design, durability and cost, ease of construction.
- Distinguish the physical behaviour of under and over reinforced concrete members.
- Consolidate the fundamental principles of structural design for concrete structures, including principles of Limit State Design, margins of uncertainty associated with loading, material
- Design and check for serviceability (crack and deflection) conditions and for ultimate limit state conditions in accordance with relevant reinforced concrete design standards (Eurocodes).
- Critically examine the results of structural design of concrete sections.
Indicative reading list
Millais, M., ‘Building Structures: from Concepts to Design,’ 2nd Ed., Taylor & Francis, 2005.
Arya, C., Design of Structural elements, Spon Press, 2009.
Mosley, W.H., Hulse, R., Bungey, J.H. Reinforced Concrete Design: to Eurocode 2, 7th ed. Palgrave Macmillan, 2012.
Subject specific skills
- Ability to conceive, make and realise a component
- Ability to develop economically viable and ethically sound sustainable solutions
- Ability to be pragmatic, taking a systematic approach and the logical and practical steps necessary for, often complex, concepts to become reality
- Ability to seek to achieve sustainable solutions to problems and have strategies for being creative and innovative
- Ability to be risk, cost and value-conscious, and aware of their ethical, social, cultural, environmental, health and safety, and wider professional engineering responsibilities
- Ability to apply relevant practical and laboratory skills
Transferable skills
- Apply problem solving skills, information retrieval, and the effective use of general IT facilities
- Awareness of the nature of business and enterprise in the creation of economic and social value
- Overcome difficulties by employing skills, knowledge and understanding in a flexible manner
- Ability to formulate and operate within appropriate codes of conduct, when faced with an ethical issue
- Appreciation of the global dimensions of engineering, commerce and communication
Study time
Type | Required |
---|---|
Lectures | 34 sessions of 1 hour (23%) |
Practical classes | 3 sessions of 1 hour (2%) |
Private study | 113 hours (75%) |
Total | 150 hours |
Private study description
113 hours guided independent learning
Costs
No further costs have been identified for this module.
You must pass all assessment components to pass the module.
Students can register for this module without taking any assessment.
Assessment group B1
Weighting | Study time | Eligible for self-certification | |
---|---|---|---|
Online Examination | 100% | No | |
QMP ~Platforms - AEP,QMP
|
Feedback on assessment
Feedback in examples class.
Model solutions to recent past papers.
Cohort level feedback on examinations.
Pre-requisites
To take this module, you must have passed:
Post-requisite modules
If you pass this module, you can take:
- ES97P-15 Earthquake Resilient Structures
- ES4F4-15 Advanced Structural Engineering
- ES4E3-15 Vibration of Civil and Mechanical Engineering Structures
Courses
This module is Core for:
- Year 3 of UESA-H216 BEng Civil Engineering
- Year 4 of UESA-H215 BEng Civil Engineering with Intercalated Year
- Year 3 of UESA-H217 MEng Civil Engineering
- Year 4 of UESA-H218 MEng Civil Engineering with Intercalated Year
This module is Core optional for:
- Year 3 of UESA-H218 MEng Civil Engineering with Intercalated Year
- Year 3 of UESA-H115 MEng Engineering with Intercalated Year
This module is Optional for:
- Year 3 of UESA-H113 BEng Engineering
- Year 3 of UESA-H114 MEng Engineering
- Year 4 of UESA-H115 MEng Engineering with Intercalated Year
This module is Option list A for:
- Year 4 of UESA-H111 BEng Engineering with Intercalated Year
- Year 3 of UESA-H112 BSc Engineering