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Damage Prognosis is the prediction in near real time of the remaining useful life of an engineered system given the measurement and assessment of its current damaged (or aged) state and accompanying predicted performance in anticipated future loading environments. "Damage Prognosis - For Aerospace, Civil and Mechanical Systems" brings together fundamental information and extensive references in each of the component technologies necessary to perform damage prognosis such as predictive modelling, sensing and data acquisition hardware, and data interrogation procedures. Written by a global team…mehr

Produktbeschreibung
Damage Prognosis is the prediction in near real time of the remaining useful life of an engineered system given the measurement and assessment of its current damaged (or aged) state and accompanying predicted performance in anticipated future loading environments. "Damage Prognosis - For Aerospace, Civil and Mechanical Systems" brings together fundamental information and extensive references in each of the component technologies necessary to perform damage prognosis such as predictive modelling, sensing and data acquisition hardware, and data interrogation procedures. Written by a global team of experts representing academia, industry and government laboratories, this book: Presents a series of fundamental topics that define the new area of Damage Prognosis. Deals with interdisciplinary topics such as rotating machines, aerospace structures, automotive components and civil structures. "Damage Prognosis - For Aerospace, Civil and Mechanical Systems" is the first book to address this multi-disciplinary technology in a comprehensive manner. The potential for Damage Prognosis to enhance life safety and provide economic benefits to society will make it the focus of extensive research over the next decade. As such, this book is an invaluable resource for civil, mechanical and aerospace engineers who wish to work in damage prognosis. In addition it serves as an excellent research tool for academic and corporate researchers and lecturers and graduates in related fields. Research libraries and government lab libraries will also find this book a useful asset.
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Autorenporträt
Daniel J. Inman; Director, Center for Intelligent Material Systems and Structures.Since 1980, he has published five books (on vibration, control, statics, and dynamics), eight software manuals, seven book chapters, over 160 journal papers and 300 proceedings papers, graduated 35 Ph.D. students and supervised more than 55 MS degrees. He is currently Technical Editor of the Journal of Intelligent Material Systems and Structures (1999-2004), Technical Editor of the Shock and Vibration Digest (1998-2001), and Technical Editor of the journal Shock and Vibration (1999-2004). Charles R. Farrar, MS T-001, Los Alamos National Laboratory. Farrar is President of Los Alamos Dynamics.  He is an expert in structural health monitoring and in technologies for detecting changes or damage in complex mechanical systems, ranging from bridges to nuclear weapons. He has authored dozens of papers and conference reports and has served as an editor for the International Journal of Structural Health Monitoring and the American Society of Mechanical Engineers Journal of Vibration and Acoustics. Farrar was instrumental in the recent establishment of the joint Engineering Institute for educational collaboration between the Laboratory and the Jacobs School of Engineering at the University of California, San Diego. Vicente Lopes Junior, Director of the Faculty of Engineering of Ilha Solteira, UNESP, Universidade Estadual de São Paulo, Brazil. Valder Steffen Junior, Federal University of Uberlandia, School of Mechanical Engineering, Campus Santa Mùnica, Brazil.
Rezensionen
"This book is highly recommended to anyone beginning research in damage prognosis and as a text book for advanced courses ... .Experienced researchers would also benefit." (Journal of Sound & Vibration, January 2008)