There are numerous engineering applications for high-speed rotating structures which rotate about their symmetric axes. For example, free-flight sub-munition projectiles rotate at high speeds in order to achieve an aerodynamically-stable flight.
This is the first book of its kind to provide a comprehensive and systematic description of rotating shell dynamics. It not only provides the basic derivation of the dynamic governing equations for rotating shells, but documents benchmark results for free vibration, critical speed and parametric resonance. It is written in a simple and clear manner making it accessible both the expert and graduate student.
Preface
Foreword
Authors' Brief Biographies
Acknowledgement
Chapter 1 : Introduction
Chapter 2 : Fundamental Theory of Rotating Shells of Revolution
Chapter 3 : Free Vibration of Thin Rotating Cylindrical Shells
Chapter 4 : Free Vibration of Thin Rotating Conical Shells
Chapter 5 : Free Vibration of Thick Rotating Cylindrical Shells
Chapter 6 : Critical Speed and Dynamic Stability of Thin Rotating Isotropic Cylindrical Shells
References
Subject Index