Specification Development

1st Edition

Christi Lalanne

CRC Press
Published May 24, 2002
Reference - 313 Pages - 100 Color Illustrations
ISBN 9781560329909 - CAT# GS1039
Series: Mechanical Vibration and Shock

was $225.00


SAVE ~$45.00

Currently out of stock
Add to Wish List
FREE Standard Shipping!


About the Series
This important new series of five volumes has been written with both the professional engineers and the academic in mind. Christian Lalanne explores every aspect of vibration and shock, two fundamental and crucially important areas of mechanical engineering, from both the theoretical and practical standpoints. As all products need to be designed to withstand the environmental conditions to which they are likely to be subjected, prototypes must be verified by calculation and laboratory tests, the latter according to specifications from national or international standards. The concept of tailoring the product to its environment has gradually developed whereby, from the very start of a design project, through the to the standards specifications and testing procedures on the prototype, the real environment in which the product being tested will be functioning is taken into account. The five volumes of Mechanical Shock and Vibration cover all the issues that need to be addressed in this area of mechanical engineering. The theoretical analyses are placed in the context of the real world and of laboratory tests - essential for the development of specifications.
Volume V: Specification Development
This volume is concerned with the presentation of specification development in accordance with the principle of tailoring. Extreme response and the fatigue damage spectra are defined for each type of stress (sinusoidal vibration, swept sine, shock, random vibration, etc). The process for establishing a specification from the life cycle profile of the equipment is then detailed, taking account of the uncertainty factor, designed to cover uncertainties related to the real environment and mechanical strength; and the test factor, which takes account of the number of tests performed to demonstrate the resistance of the equipment.

Share this Title