Kinematic Chains and Machine Components Design

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Elsevier Butterworth Heinemann, 2005 - Mathematics - 778 pages
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The theory of the physical movement and the geometry of movement--kinematics--is used as the basis for this text/reference. In a first of its kind, this book applies that knowledge of kinematics and kinematic chains to the design of machine components and machine systems. It covers a broad spectrum of critical machine design topics and helps the reader understand the fundamentals, apply the technologies, and get the desired outcomes. The book presents the reader with a teachable and computer-oriented text, and includes examples and instructive problems. Useful analytical techniques provide the student and the practitioner with powerful tools for the design of kinematic chains and machine components. The book will serve also as a reference for the practicing engineer and designer and as a source book for the researcher.
The book is a one-volume reference for engineers and students in mechanical engineering, with usefulness for all engineers and designers working in the fields of machine design and robotics. The book contains the fundamental laws and theories of science basic to mechanical engineering including mechanisms, robots and machine components. The book provides readers with a basic understanding of the subject together with guidance to mechanical design.

* Combines theories of kinematics and behavior of mechanisms with the practical design of robots, machine parts, and machine systems into one comprehensive mechanical design book
* Offers the method of contour equations for the kinematic analysis of mechanicsl systems and dynamic force analysis
* Mathematica programs and packages for the analysis of mechanical systems
* An Instructor's Solutions Manual will be provided

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About the author (2005)

Dan B. Marghitu is an associate professor in the Department of Mechanical Engineering at Auburn University. Dr. Marghitu's specialty areas include impact dynamics, biomechanics, nonlinear dynamics, flexible multibody systems and robotics.

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