Engineering Principles of Mechanical Vibration
by
Book Details
About the Book
ENGINEERING PRINICPLES OF MECHANICAL VIBRATION is a textbook that is designed for use in senior level undergraduate and introductory and intermediate level graduate courses in mechanical vibration. The textbook assumes that students have a fundamental understanding of rigid body dynamics and ordinary differential equations. Engineering Principles of Mechanical Vibration is an applications oriented vibration textbook that contains complete developments of the equations associated with the many vibration principles discussed in the textbook. The textbook presents complete developments of solution techniques for ordinary and partial differential equations associated with lumped-parameter single-degree-of-freedom and multi-degree-of-freedom vibration systems and basic continuous vibration systems. It discusses principles associated with periodic, complex periodic, non-periodic, transient, and random vibration excitation and presents information related to vibration measurements and digital processing of vibration signals.
About the Author
Dr. Douglas D. Reynolds has over 37 years of teaching, research and consulting experience in mechanical vibration. He is currently Professor of Mechanical Engineering and Director of the Center for Mechanical and Environmental Systems Technology at the University of Nevada, Las Vegas. He has worked on applications oriented research projects related to human exposure to vibration and shock. He is chairman of the American National Standards Institute (ANSI) Working Group S2.39 – Human Exposure to Mechanical Vibration and Shock. He is chairman of the US Technical Advisory Group (TAG) and head of the US delegation for the International Organization on Standardization (ISO) Technical Committee (TC) 108/Subcommittee (SC) 4 – Human Exposure to Mechanical Vibration and Shock.