Engineering is at the heart of modern life. Today engineers use computers and software in the design and manufacture of most of the products, processes and systems that make up our lifestyles. This module introduces the finite element method and instils the need for comprehensive evaluation and checking when interpreting results. It covers basic theory; modelling, meshing and analysing component models for stresses, deflections, temperatures and vibrations under operating conditions and loads; treatment of boundary conditions and restraints; and examples of good practice for safe and effective application in use.
What you will study
The module is divided into three main blocks covering:
- an introduction to the finite element analysis method and general theory
- linear, structural analysis and heat transfer
- dynamics, vibration modal analysis and an introduction to non-linear problems and approaches.
The module will emphasise the need to:
- understand the overall physics and engineering of the problem to be solved, and the loads and boundary conditions to apply
- be clear what the problem is, what is being modelled and to formulate a systematic plan of analysis beforehand.
You’ll be shown how to conduct a linear finite element stress analysis of a loaded component, how to conduct a linear thermal analysis of a heated component and how to conduct a normal mode dynamics analysis of a free unloaded component. Also you will be given guidance on how to report the results of such analyses to an industrial type client.
Overall you should become competent and safe in using computer-aided finite element analysis tools in an industrial engineering and design environment.
Vocational relevance
The module will be particularly applicable for engineers and scientists who want to understand the fundamental theory of Finite Element Analysis (FEA), and gain some practical experience in the techniques to safely model and analyse engineering products and problems.
Entry
This module can be taken on its own or as a module of a qualification.
If you are taking it as part of a postgraduate qualification, you must have adequate preparation for study at this level, usually demonstrated by a bachelors degree (or the equivalent) from a UK university. Ideally you should have an honours degree in mechanical engineering and be familiar with subjects such as stress analysis, heat transfer, vibrations, matrix algebra and calculus. An online self-evaluation test is available that illustrates recommended entry skills in mathematics and engineering and may help you identify potential areas for revision.
In addition, you may wish to take a look at our free online course Succeeding in postgraduate study before you embark on T804. This course will introduce you to the nature of Master’s level study. It offers essential preparation for pursuing your learning at this level.
Your spoken and written English must be of an adequate standard for postgraduate study. If English is not your first language, we recommend that you will need a minimum overall score of 6 and minimum score of 5.5 in each of the four components: reading, writing, speaking and listening under the International English Language Testing System (IELTS). Please see the IELTS website for details.
If you have any doubt about the suitability of the module, please speak to an adviser.
Qualifications
T804 is an optional module in our:
Excluded combinations
Sometimes you will not be able to count a module towards a qualification if you have already taken another module with similar content. To check any excluded combinations relating to this module, visit our excluded combination finder or check with an adviser before registering.
If you have a disability
Finite element analysis software is a complex software comprising menus, dialogue boxes, text input boxes and textual and visual output. The visual output will vary according to the input parameters and as such, cannot be anticipated. Figure descriptions are not provided for screenshots from the software. Screen readers will not work with this software. If you have a visual or manual dexterity impairment you may find using this software challenging. If you use specialist hardware or software to assist you in using a computer you are advised to contact us about support which can be given to meet your needs.
The materials for this module are provided as a series of web pages via the module website. Some online material may not be fully accessible using a screen reader (and mathematical and scientific materials may be particularly difficult to read in this way). Transcripts of any audio material are available and other alternative formats of the study materials, including alternative electronic text that can also be printed, may be available in the future.
Study materials
What's included
The study material is available online from the module website, which includes:
- a week-by-week study planner
- access to the module software
- course-specific module materials
- FEA exercises and case studies
- assessment details and submission section
- online tutorial access
- access to online forums.
Teaching and assessment
Support from your tutor
Throughout your module studies, you’ll get help and support from your assigned module tutor. They’ll help you by:
- Marking your assignments (TMAs) and providing detailed feedback for you to improve.
- Guiding you to additional learning resources.
- Providing individual guidance, whether that’s for general study skills or specific module content.
- Facilitating online discussions between your fellow students, in the dedicated module and tutor group forums.
Module tutors also run online tutorials throughout the module. Where possible, recordings of online tutorials will be made available to students. While these tutorials won’t be compulsory for you to complete the module, you’re strongly encouraged to take part. If you want to participate, you’ll likely need a headset with a microphone.
Assessment
The assessment details for this module can be found in the facts box.
Future availability
Finite element analysis: basic principles and applications (T804) starts once a year – in November.
This page describes the module that will start in November 2023.
We expect it to start for the last time in November 2023.
We’ll replace T804 with a new module – Finite element analysis: principles and applications (T808) – from November 2024. It will start once a year – in October.
Regulations
As a student of The Open University, you should be aware of the content of the academic regulations which are available on our
Student Policies and Regulations website.