Aim: the aim of the workshop is to introduce state of the art methods for the prediction of noise and vibration developed during recent EPSRC-funded research. Numerical and experimental methods will be presented in a tutorial style. New ways of integrating experimental and numerical vibro-acoustic models will be described and illustrated by practical case studies including an industrial case study to be presented by Dyson.
Applications: vibro-acoustic modelling and design, product design, building acoustics and vibration.
Who should attend: consultants, acoustic and vibration engineers, researcher in vibro-acoustic measurement and modelling. The techniques presented are relevant for applications including automotive, aerospace, buildings, domestic appliances, marine, offshore and others.
Programme:
10:00 Welcome and Introduction - Andy Moorhouse, University of Salford
10:05 Experimental methods for vibro-acoustics - Andy Moorhouse, University of Salford
10:35 FEM, SEA and the Hybrid Method - Robin Langley, University of Cambridge
11:30 Embedding measured data in a Hybrid model, Arnau Clot, University of Cambridge
12:00 Discussion
12:30 Lunch
13:30 Case study 1 - Andy Elliott, University of Salford
14:00 Dealing with uncertainties - Josh Meggitt, University of Salford
14:30 Refreshments
15:00 Dyson Case Study - Guy Banwell, Dyson
15:30 Discussion and questions - All
16:00 Close
James Dyson Building, University of Cambridge
Sponsors:
University of Cambridge
Trumpington Street
Cambridge,
CB2 1QA
| Event Fee(s) | |
| Delegates | £50.00 |
| Dietary Requirements Please email linda.canty@ioa.org.uk | £0.00 |