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This book fills a unique position in the literature as a dedicated mechanical shock analysis book. Because shock events can be extremely damaging, mechanical shock is an important topic for engineers to understand. This book provides the reader with the tools needed to quantitatively describe shock environments and their damage potential on aerospace, civil, naval and mechanical systems. The authors include the relevant history of how shock testing and analysis came to its current state and a discussion of the different types of shock environments typically experienced by systems. Development…mehr

Produktbeschreibung
This book fills a unique position in the literature as a dedicated mechanical shock analysis book. Because shock events can be extremely damaging, mechanical shock is an important topic for engineers to understand. This book provides the reader with the tools needed to quantitatively describe shock environments and their damage potential on aerospace, civil, naval and mechanical systems. The authors include the relevant history of how shock testing and analysis came to its current state and a discussion of the different types of shock environments typically experienced by systems. Development of single-degree-of-freedom theory and the theory of the shock response spectra are covered, consistent with treatment of shock spectra theory in the literature.
What is unique is the expansion to other types of spectra including less common types of shock spectra and energy spectra methods using fundamental principles of structural dynamics. In addition, non-spectral methods are discussed with their applications. Non-spectral methods are almost completely absent from the current books on mechanical shock. Multi-degree-of-freedom shock spectra and multi-degree-of-freedom testing are discussed and the theory is developed. Addressing an emerging field for laboratory shock testing, the authors bring together information currently available only in journals and conference publications.
The volume is ideal for engineers, structural designers, and structural materials fabricators needing a foundation to practically analyze shock environments and understand their role in structural design.
Autorenporträt
Dr. Vit Babuka is an Aerospace Engineer and Principal Member of the Technical Staff at Sandia National Laboratories in Albuquerque, New Mexico, where he has worked since 2005. His current work addresses shock environments and structural mechanics model validation for shock loadings. Dr. Babuka's experience spans environmental test including vibration and shock testing and requirements specification, structural dynamics, system identification and control of spacecraft systems, and signal processing. He has worked on various spaceflight programs and spacecraft R&D projects during his career.  He earned his Ph.D. in Aerospace Engineering in 1993 from The University of Texas at Austin.  Dr. Carl Sisemore is a Mechanical Engineer and Principal Member of the Technical Staff at Sandia National Laboratories in Albuquerque, New Mexico, where he has worked since 2014. His current work focuses on shock and vibration test specification development and analysis of shock and vibration test data. In addition, he has co-lead the shock margin assessment research project on Energy Spectra and mechanical shock. He earned his PhD in Mechanical Engineering from Tennessee Technological University in 2001