High-Tech engineering demands that structures should be designed to bear both static and dynamic loads during their lifetime operations. Structural performance and functionality are the results of expensive simulations, validation tests and, ultimately, qualification tests. Those machines are subjected to operational loads as vibrations which can easily undermine both the structural and functional performance. For such reasons and many others, high-tech engineering must assure that engineers are trained to structural dynamics test and analysis tools.
 
My Structural Dynamics course  uses a satellite mock-up for learning smart dynamic testing and experimental model validation, starting from its subcomponents up to the complete full assembly. You will appreciate the ultimate goal of the qualification test design and its execution in our experimental laboratory. The lectures will provide the basic tools for understanding the structural dynamics, and those will be integrated with practical examples. Finally. the course is hands-on, that means you are asked: (a) to carry out modal test and analysis, (b) to model sub-components by FE, (c) to simulate the frequency response functions and (d) to correlate experimental and simulation data. You will be asked to write a report and present your work.
 
In brief, I graduated PhD at Imperial College London and worked 10 years at the University of Bristol before moving to UT. I collaborated during my research career with Rolls-Royce and defence industry, experiences which taught me a lot and that structural dynamics is a key-knowledge. It is not just theory! But, it is about to know how to use Structural Dynamics for understanding and modelling the physics of structures subjected to dynamic loads.