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The Aim ofthe Book. This book is concerned with the subjects of vibrations and system dynamics on an integrated basis. Design engineers find themselves confronted with demands made on machin ery, structures and dynamic systems which are increasing at such a rate that dy namic performance requirements are always rising. Hence, advances in analysis and design techniques have to keep pace with recent developments in strong lightweight materials, more extensive knowledge of materials properties and structural loading. Whereas the excitation applied to structures is always increas ing, the machine…mehr

Produktbeschreibung
The Aim ofthe Book. This book is concerned with the subjects of vibrations and system dynamics on an integrated basis. Design engineers find themselves confronted with demands made on machin ery, structures and dynamic systems which are increasing at such a rate that dy namic performance requirements are always rising. Hence, advances in analysis and design techniques have to keep pace with recent developments in strong lightweight materials, more extensive knowledge of materials properties and structural loading. Whereas the excitation applied to structures is always increas ing, the machine mass and damping is reduced. Consequently, unwanted vibra tions can have very serious effects on dynamic systems. It is, therefore, essential to carry out vibration analysis as an inherent part of machine design. The problems arising either from the observed or predicted dynamic behaviour of systems are of particular interest in control theory. Vibration theory places emphasis on analysis, which implies determining the response to given excita tions, and any design amounts to changing the system parameters so as to bring about a satisfactory response. The improvement in performance achieved by changing solely the parameters of the mechanical system is very limited. How ever, a new approach to system design has proved to be more successful. It con sists of designing forces that, when exerted on the system, produce a satisfactory response. This approach, known as control, has become a ubiquitous part of the engineering curriculum, completing the conventional mechanical disciplines.
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Autorenporträt
Professor Dr.-Ing. habil. Dietmar Findeisen studierte Allgemeinen Maschinenbau an der TH Hannover. 1974 Promotion, 1984 Habilitation für das Fachgebiet Schwingungsmaschinen an der TU Berlin. Er war Leiter der Fachgruppe Wissenschaftlicher Gerätebau in der Bundesanstalt für Materialprüfung (BAM) in Berlin. Seine Forschungsgebiete umfassen die Systemtheorie und Schwingungstechnik, die komplexe Leistungstheorie sowie geregelte mechanische und hydraulische Antriebe in Schwingprüfmaschinen. Professur und von 1976 bis 2001 Lehrtätigkeit an der TU Berlin: "Elemente des Schwingungsmaschinenbaus" und "Ölhydraulik und Pneumatik".
Rezensionen
Aus den Rezensionen: "... Eine wichtige Grundlage für mechatronische Systeme ist die Systemdynamik. Mit ihr kann das dynamische Verhalten des Gesamtsystems mit allen Komponenten untersucht werden ... In dem bereits im Jahr 2000 erschienenen Buch ... wird diese Grundlage in ausführlicher Form dargestellt. Das Buch richtet sich sowohl an Studenten als auch an Ingenieure der Praxis, die reale Probleme der Systemdynamik und der mechanischen Schwingungen bei der Entwicklung und Konstruktion von Maschinen und mechatronischen Systemen zu lösen haben ..." (R. Nordmann, in: Konstruktion, 2010, Issue 4, S. 74)