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Englisch
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Beschreibung
Dynamic loads and undesired oscillations increase with higher speed of machines. At the same time, industrial safety standards require better vibration reduction.
This book covers model generation, parameter identification, balancing of mechanisms, torsional and bending vibrations, vibration isolation, and the dynamic behavior of drives and machine frames as complex systems.
Typical dynamic effects, such as the gyroscopic effect, damping and absorption, shocks, resonances of higher order, nonlinear and self-excited vibrations are explained using practical examples. These include manipulators, flywheels, gears, mechanisms, motors, rotors, hammers, block foundations, presses, high speed spindles, cranes, and belts. Various design features, which influence the dynamic behavior, are described.
The book includes 60 exercises with detailed solutions.
The substantial benefit of this "Dynamics of Machinery" lies in the combination of theory and practical applications and the numerous descriptive examples based on real-world data. The book addresses graduate students as well as engineers.
This book covers model generation, parameter identification, balancing of mechanisms, torsional and bending vibrations, vibration isolation, and the dynamic behavior of drives and machine frames as complex systems.
Typical dynamic effects, such as the gyroscopic effect, damping and absorption, shocks, resonances of higher order, nonlinear and self-excited vibrations are explained using practical examples. These include manipulators, flywheels, gears, mechanisms, motors, rotors, hammers, block foundations, presses, high speed spindles, cranes, and belts. Various design features, which influence the dynamic behavior, are described.
The book includes 60 exercises with detailed solutions.
The substantial benefit of this "Dynamics of Machinery" lies in the combination of theory and practical applications and the numerous descriptive examples based on real-world data. The book addresses graduate students as well as engineers.
Dynamic loads and undesired oscillations increase with higher speed of machines. At the same time, industrial safety standards require better vibration reduction.
This book covers model generation, parameter identification, balancing of mechanisms, torsional and bending vibrations, vibration isolation, and the dynamic behavior of drives and machine frames as complex systems.
Typical dynamic effects, such as the gyroscopic effect, damping and absorption, shocks, resonances of higher order, nonlinear and self-excited vibrations are explained using practical examples. These include manipulators, flywheels, gears, mechanisms, motors, rotors, hammers, block foundations, presses, high speed spindles, cranes, and belts. Various design features, which influence the dynamic behavior, are described.
The book includes 60 exercises with detailed solutions.
The substantial benefit of this "Dynamics of Machinery" lies in the combination of theory and practical applications and the numerous descriptive examples based on real-world data. The book addresses graduate students as well as engineers.
This book covers model generation, parameter identification, balancing of mechanisms, torsional and bending vibrations, vibration isolation, and the dynamic behavior of drives and machine frames as complex systems.
Typical dynamic effects, such as the gyroscopic effect, damping and absorption, shocks, resonances of higher order, nonlinear and self-excited vibrations are explained using practical examples. These include manipulators, flywheels, gears, mechanisms, motors, rotors, hammers, block foundations, presses, high speed spindles, cranes, and belts. Various design features, which influence the dynamic behavior, are described.
The book includes 60 exercises with detailed solutions.
The substantial benefit of this "Dynamics of Machinery" lies in the combination of theory and practical applications and the numerous descriptive examples based on real-world data. The book addresses graduate students as well as engineers.
Über den Autor
Professor Dr. Hans Dresig geb.1937, 1954 - 1960 Studium Maschinenbau (TU Dresden), 1965 Dr.-Ing.,1970 Dr.-Ing. habil. (TU Dresden), 1965-1969 Kranbau Eberswalde, 1970-1978 Dozent, 1978-2002 Professor für Technische Mechanik, Lehrstuhl Maschinendynamik an TH Karl-Marx-Stadt /TU Chemnitz
Professor Dr.-Ing. (TU St.-Petersburg) Alexander Fidlin geb.1965, 1981 - 1987 Studium Mechanik (Polytechnische Hochschule Leningrad), 1992 Dr.-Ing. (TU Sankt Petersburg), 2002 Dr.-Ing. habil. (Universität Karlsruhe), 1987-1993 Institut für mechanische Verfahrenstechnik "Mekhanobr" (Leningrad/St.-Petersburg), 1995-2011 LuK GmbH & Co. KG, 2003-2010 Privatdozent, seit 2011 Professor für Strukturdynamik, Institut für Technische Mechanik am Karlsruher Institut für Technologie
Professor Dr.-Ing. (TU St.-Petersburg) Alexander Fidlin geb.1965, 1981 - 1987 Studium Mechanik (Polytechnische Hochschule Leningrad), 1992 Dr.-Ing. (TU Sankt Petersburg), 2002 Dr.-Ing. habil. (Universität Karlsruhe), 1987-1993 Institut für mechanische Verfahrenstechnik "Mekhanobr" (Leningrad/St.-Petersburg), 1995-2011 LuK GmbH & Co. KG, 2003-2010 Privatdozent, seit 2011 Professor für Strukturdynamik, Institut für Technische Mechanik am Karlsruher Institut für Technologie
Zusammenfassung
The book provides several features:
The combination of vibration theory and their applications
Successfully solved industrial problems and experiences
The synopsis of different vibration phenomena in machines and mechanisms
60 problems with detailed solutions
Includes supplementary material: [...]
Inhaltsverzeichnis
Model Generation and Parameter Identification.- Dynamics of Rigid Machines.- Foundation and Vibration Isolation.- Torsional Oscillators and Longitudinal Oscillators.- Bending Oscillators.- Linear Oscillators with Multiple Degrees of Freedom.- Simple Nonlinear and Self-Excited Oscillators.- Rules for Dynamically Favorable Designs.- Relations to System Dynamics and Mechatronics.
Details
| Erscheinungsjahr: | 2010 |
|---|---|
| Fachbereich: | Fertigungstechnik |
| Genre: | Mathematik, Medizin, Naturwissenschaften, Technik |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Taschenbuch |
| Inhalt: |
xii
544 S. |
| ISBN-13: | 9783540899396 |
| ISBN-10: | 3540899391 |
| Sprache: | Englisch |
| Herstellernummer: | 12033805 |
| Einband: | Kartoniert / Broschiert |
| Autor: |
Dresig, Hans
Holzweißig, Franz |
| Hersteller: | Springer |
| Verantwortliche Person für die EU: | Springer Verlag GmbH, Tiergartenstr. 17, D-69121 Heidelberg, juergen.hartmann@springer.com |
| Maße: | 235 x 155 x 30 mm |
| Von/Mit: | Hans Dresig (u. a.) |
| Erscheinungsdatum: | 13.08.2010 |
| Gewicht: | 0,838 kg |