Electrical and Mechanical Materials

Module overview

This module equips students with a comprehensive understanding of how mechanical systems move and deform when subjected to external forces. We then progress to advanced topics including buckling and deformation of mechanical structures such as beams and cantilevers. The second part of the module covers materials response to applied electric and magnetic fields, e.g. polarisation and conduction in dielectrics, magnetisation and ferromagnetism. Materials for novel and emerging applications are considered as well, e.g. high-voltage cable insulations, electret materials, triboelectric series, piezo-electricity, ferro-electricity, pyroelectricity. The module includes one laboratory analysis covering dielectric material characterisation and one laboratory experiments on deformation of beams. Students will be supported by examples and tutorial questions with many real-life practical examples.

Aims and Objectives

Learning Outcomes

Knowledge and Understanding

Having successfully completed this module, you will be able to demonstrate knowledge and understanding of:

Electromechanical properties of matter.
Properties of magnetic materials for electromechanical systems.
Basics of beams and structural analysis.
Conduction and polarisation mechanisms in insulators.
The physical and engineering principles underlying the response of materials to electric and magnetic fields.

Subject Specific Intellectual and Research Skills

Having successfully completed this module you will be able to:

Understand materials structure and properties
Analyse simple mechanical systems.
Calculate beam deflection .
Select suitable materials for engineering applications

Subject Specific Practical Skills

Having successfully completed this module you will be able to:

Relate structure and composition to material magnetic properties
Determine the electrical properties of materials.
Explain the design principles for simple mechanical devices

Learning and Teaching

Teaching and learning methods

The content of this module is delivered through lectures, module website, directed reading, pre-recorded materials and tutorials. Students work on their understanding through a combination of independent study, preparation for timetabled activities, tutorials and problem classes, along with laboratories. Students work on their practical skills and technical understanding in technical laboratories.

Study time
Type	Hours
Tutorial	12
Wider reading or practice	51
Preparation for scheduled sessions	9
Lecture	36
Revision	18
Follow-up work	18
Specialist Laboratory	6
Total study time	150

Resources & Reading list

Textbooks

Hibbeler R. C. (2017). Mechanics of materials. Pearson.

Bedford A., Liechti K. M. (2020). Mechanics of Materials. Springer.

P. P. Benham; R. J. Crawford; C. G. Armstrong (1996). Mechanics of engineering materials. Longman/Pearson/Prentice Hall.

Spaldin N, (2003). Magnetic Materials Fundamentals and Device Applications. Cambridge University Press.

Solymar L & Walsh D (1993). Lectures on the Electrical Properties of Materials. OUP.

Beer F.P . (2016). Vector mechanics for engineers: Statics and dynamics. McGraw-Hill Education.

Blythe A (2005). Electrical Properties of Polymers. Cambridge University Press.

Anderson J, Leaver K D, Rawlings R D & Alexander J M (1990). Materials Science. Chapman & Hall.

Assessment

Assessment strategy

This module is assessed by a combination of practical laboratories and a final assessment in the form of a written examination.

Summative

This is how we’ll formally assess what you have learned in this module.

Breakdown
Method	Percentage contribution
Laboratory	10%
Written exam	90%

Referral

This is how we’ll assess you if you don’t meet the criteria to pass this module.

Breakdown
Method	Percentage contribution
Written exam	100%

Repeat

An internal repeat is where you take all of your modules again, including any you passed. An external repeat is where you only re-take the modules you failed.

Breakdown
Method	Percentage contribution
Written exam	100%

Repeat Information

Repeat type: Internal & External