J.E.T. Penny scite author profile

This book equips the reader to understand every important aspect of the dynamics of rotating machines. Will the vibration be large? What influences machine stability? How can the vibration be reduced? Which sorts of rotor vibration are the worst? The book develops this understanding initially using extremely simple models for each phenomenon, in which (at most) four equations capture the behavior. More detailed models are then developed based on finite element analysis, to enable the accurate simulation of the relevant phenomena for real machines. Analysis software (in MATLAB) is associated with this book, and novices to rotordynamics can expect to make good predictions of critical speeds and rotating mode shapes within days. The book is structured more as a learning guide than as a reference tome and provides readers with more than 100 worked examples and more than 100 problems and solutions.

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Model reduction using dynamic and iterated IRS techniques

Friswell

Garvey

Penny

1995

Journal of Sound and Vibration

277

153

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Crack Modeling for Structural Health Monitoring

Friswell

Penny

2002

Structural Health Monitoring

234

112

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There are a number of approaches to the modeling of cracks in beam structures reported in the literature, that fall into three main categories; local stiffness reduction, discrete spring models, and complex models in two or three dimensions. This paper compares the different approaches to crack modeling, and demonstrates that for structural health monitoring using low frequency vibration, simple models of crack flexibility based on beam elements are adequate. This paper also addresses the effect of the excitation for breathing cracks, where the beam stiffness is bilinear, depending on whether the crack is open or closed. Most structural health monitoring methods assume that the structure is behaving linearly, whereas in practice the response will be nonlinear to an extent that varies with the form of the excitation. This paper will demonstrate these effects for a simple beam structure.

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A combined genetic and eigensensitivity algorithm for the location of damage in structures

Friswell

Penny

Garvey

1998

Computers & Structures

241

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Automatic choice of measurement locations for dynamic testing

1994

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J.E.T. Penny

Dynamics of Rotating Machines

Model reduction using dynamic and iterated IRS techniques

Crack Modeling for Structural Health Monitoring

A combined genetic and eigensensitivity algorithm for the location of damage in structures

Automatic choice of measurement locations for dynamic testing

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