Timing and Structure
Michaelmas term. 13 lectures + 2 examples classes + coursework. Assessment: 75% exam/25% coursework
The aims of the course are to:
- teach some essential tools for the understanding, analysis and measurement of vibration in engineering structures.
As specific objectives, by the end of the course students should be able to:
- be familiar with the theory and practice of modal analysis and its application to engineering structures.
- apply experimental modal techniques.
- understand the vibration behaviour of idealised system components, and be able to draw implications from this for complex coupled systems.
- appreciate the physical principles of vibration damping.
- analyse simple damped vibrating systems.
Introduction (1L, Dr JP Tabot)
Outline of course and introduction to the laboratory experiment.
Measurement methods and modal analysis (4L, Dr JP Talbot)
- Instrumentation for vibration measurement;
- Review of modal analysis; General properties of vibration response;
- Introduction to experimental modal analysis; Modelling the bounce of a hammer;
Analysis of damped systems (4L, Dr HEM Hunt)
- Mechanisms of damping: complex modulus, boundary dissipation, lumped dissipative elements;
- Adding damping to structures, constrained and unconstrained layers;
- Viscous damping, complex modes.
System components and coupling (4L Dr T Butlin)
- The Helmholtz resonator and its uses;
- Review of beam, membrane and plate governing equations;
- The circular membrane, Bessel functions, mode shapes and frequencies;
- Coupling of subsystems, constraints and the interlacing theorem.
One laboratory experiment on experimental modal analysis, to be performed in pairs, essentially unsupervised. A booking sheet will offer a wide range of possible times at which the experiment may be performed. A normal laboratory write-up is to be prepared, which will be assessed for the coursework credit. Total time commitment will be comparable to a Part IIA experiment plus FTR.
Lab experiment: modal analysis
Measure vibration transfer functions over a grid of points covering a simple structure, then use modal analysis techniques explained in the lectures to infer the first few mode shapes.
Before final lecture slot, which is a feedback session on the lab
Wed week 8
Please refer to the Booklist for Part IIB Courses for references to this module, this can be found on the associated Moodle course.
Please refer to Form & conduct of the examinations.
The UK Standard for Professional Engineering Competence (UK-SPEC) describes the requirements that have to be met in order to become a Chartered Engineer, and gives examples of ways of doing this.
UK-SPEC is published by the Engineering Council on behalf of the UK engineering profession. The standard has been developed, and is regularly updated, by panels representing professional engineering institutions, employers and engineering educators. Of particular relevance here is the 'Accreditation of Higher Education Programmes' (AHEP) document which sets out the standard for degree accreditation.
The Output Standards Matrices indicate where each of the Output Criteria as specified in the AHEP 3rd edition document is addressed within the Engineering and Manufacturing Engineering Triposes.
Last modified: 15/09/2020 15:07