Publisher's Synopsis
The study of nonlinear dynamical phenomena in materials processing has produced new ideas that have tremendous potential to help increase manufacturing production speed and improve product quality. This unique volume provides an introduction to these powerful phenomena and offers fresh methods for the diagnosis and control of nonlinear dynamics in manufacturing processing.
Bringing together contributions from leading experts in machining and forming processes as well as nonlinear and chaotic dynamics, the book is divided into two sections. Part I explores the direct application of nonlinear dynamics and chaos theory to machining, grinding, and rolling processes and addresses the difficult problem of chatter dynamics in cutting processes.
These chapters illustrate three generic dynamic subproblems––the stability of cutting processes, subcritical bifurcations, and chaotic vibrations––and present new mathematical models for understanding unstable materials processing dynamics.
Part II examines promising new concepts in nonlinear dynamics that may have direct uses in manufacturing processes––from impact, friction, and fracture dynamics to control methods that harness the theory of chaotic dynamics.
Bringing readers the latest developments from the frontier of nonlinear dynamics and materials processing, this book is a vital asset to researchers in many fields, including materials engineering, mechanical engineering, aerospace engineering, and manufacturing processes.
The first book to explore dynamics, chaos, and complexity in materials processing and manufacturing––from leading experts
This contributed volume provides a solid introduction to nonlinear dynamical phenomena along with new methods for the diagnosis and control of nonlinear dynamics in manufacturing processing. An important new resource for researchers in many areas of engineering and manufacturing, Dynamics and Chaos in Manufacturing Processes contains chapters on:
∗ Nonlinear Dynamics and Chaos in Manufacturing Processes F. C. Moon and M. A. Johnson
∗ Dynamic Modeling and Control of Machining Processes A. Galip Ulsoy
∗ Dynamic Problems in Hard–Turning, Milling, and Grinding M. A. Davies
∗ Chatter Dynamics in Sheet–Rolling Processes R. E. Johnson and H. P. Cherukuri
∗ Modeling, Analysis, and Characterization of Machining Dynamics I. Minis and B. S. Berger
∗ Delay–Differential Equation Models for Machine Tool Chatter Gábor Stépán
∗ Applications of Perturbation Methods to Tool Chatter Dynamics Ali H. Nayfeh, Char–Ming Chin, and Jon Pratt
∗ Nonlinear Dynamics and Surface Integrity in Machining Ceramics Guangming Zhang, Stanley J. Ng, and Dung T. Le
∗ Nonlinear Dynamics with Impacts and Friction S. W. Shaw and B. F. Feeny
∗ Nonlinear Dynamics and Fracture M. Marder
∗ Controlling Chaos in Mechanical Systems Ernest Barreto, Ying–Cheng Lai, and Celso Grebogi
∗ Experimental Control of High–Dimensional Chaos David J. Christini, James J. Collins, and Paul S. Linsay
