Harris' shock and vibration handbook

Chapters are grouped according to subject matter. The first group discusses theory; the second considers instrumentation and measurements, and procedures for analyzing and testing systems subjected to shock and vibration. Vibration that is induced by ground motion and fluid flow is considered next; then methods of controlling shock and vibration; followed by chapters on packaging engineering to prevent equipment from being damaged in transit; on the theory and practice of equipment design; and on the effects of shock and vibration on humans. New material includes computer techniques for solving problems, new instrumentation based on microchip technology, advances in analysis of data and models, application of finite element methods, and test criteria and specifications.

Chapter 1: Introduction to the Handbook Chapter 2: Basic Vibration Theory Chapter 3: Vibration of a Resiliently Supported Rigid Body Chapter 4: Nonlinear Vibration Chapter 5: Self-Excited Vibration Chapter 6: Dynamic Vibration Absorbers and Auxiliary Mass Dampers Chapter 7: Vibration of Systems Having Distributed Mass and Elasticity Chapter 8: Transient Response to Step and Pulse Functions Chapter 9: Effect of Impact on Structures Chapter 10: Mechanical Impedance Chapter 11: Statistical Methods for Analyzing Vibrating Systems Chapter 12: Vibration Transducers Chapter 13: Vibration Measurement Instrumentation Chapter 14: Vibration Analyzers and Their Use Chapter 15: Measurement Techniques Chapter 16: Condition Monitoring of Machinery Chapter 17: Strain-Gage Instrumentation Chapter 18: Calibration of Pickups Chapter 19: Shock and Vibration Standards Chapter 20: Test Criteria and Specifications Chapter 21: Experimental Modal Analysis Chapter 22: Concepts in Vibration Data Analysis Chapter 23: Concepts in Shock Data Analysis Chapter 24: Seismically Vibration of Structures Induced by Ground Motion Chapter 25: Vibration Testing Machines Chapter 26, Part I: Shock Testing Machines Chapter 26, Part II: Pyroshock Testing Chapter 27: Application of Digital Computers Chapter 28, Part I: Matrix Methods of Analysis Chapter 28, Part II: Finite Element Models Chapter 29, Part I: Vibration of Structures Induced by Fluid Flow Chapter 29, Part II: Vibration of Structures Induced by Wind Chapter 29, Part III: Vibration of Structures Induced by Sound Chapter 30: Theory of Vibration Isolation Chapter 31: Theory of Shock Isolation Chapter 32: Shock and Vibration Isolators and Isolation Systems Chapter 33: Engineering Properties of Rubber Chapter 34: Engineering Properties of Metals Chapter 35: Engineering Properties of Composites Chapter 36: Material Damping and Slip Damping Chapter 37: Applied Damping Treatments Chapter 38: Torsional Vibration in Reciprocating and Rotating Machines Chapter 39, Part I: Balancing of Rotating Machinery Chapter 39, Part II: Shaft Misalignment of Rotating Machinery Chapter 40: Machine-Tool Vibration Chapter 41: Equipment Design Chapter 42: Effects of Shock and Vibration on Humans