Module information on this degree can be found below, separated by year of study.
The module information below applies for the current academic year. The academic year runs from August to July; the 'current year' switches over at the end of July.
Students select optional courses subject to rules specified in the Mechanical Engineering Student Handbook, for example at most three Design and Business courses. Please note that numbers are limited on some optional courses and selection criteria will apply.
Stress Analysis 1
Module aims
This module introduces the basic concepts and methods of stress analysis. It explains the mathematical descriptions of stress analysis and demonstrates the physical significance of stress and strain and the importance and application of Hooke's Law.
We introduce the fundamental concepts of elasticity including Youngs Modulus and Poission ratio.
We use these descriptions to show how to solve a range of stress analysis problems including plane frames, stress and strain, pressure vessels and beams.
ECTS units: 5
Learning outcomes
On completion of this module, students will be able to:
1. Derive from first principles the mathematical descriptions of stress analysis.
2. Explain the physical significance of stress and strain and the importance and application of Hooke's Law
3. Explain the fundamental concepts of elasticity including Youngs Modulus and Poission ratio
4. Use these descriptions to solve a range of stress analysis problems including plane frames, stress and strain, pressure vessels and beams.
Module syllabus
Force calculation in plane frames
Hooke's law and poisson's ratio
Modulus of elasicity
Stress/strain in cylinders and spheres
Beam theory including stress, strain and deflection.
Teaching methods
Students will be introduced to the main topics through lectures, supported by technology (PowerPoint, Panapto and Blackboard). Short activities (using interactive pedagogies) will occasionally be introduced in the classroom setting to reinforce learning, for example through mentimeter and the like. You will be provided with problem solving sheets and should complete these as part of your independent study. Tutorials sessions will provide small group interaction with teaching staff where you are expected to engage in discussion on specific problems.
Assessments
| Assessment details | ||||
| Pass mark | ||||
| Grading method | Numeric | 40% | ||
| Assessments | ||||
| Assessment type | Assessment description | Weighting | Pass mark | Must pass? |
| Examination | 1.5 Hour exam | 95% | 40% | Y |
| Examination | Progress test | 5% | 40% | N |
Reading list
Resources
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Structural and stress analysis
Fourth edition., Butterworth-Heinemann
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Circular cylinders and pressure vessels : stress analysis and design
Springer
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Engineering mechanics. 2, Mechanics of materials
2nd edition., Springer