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The aim of this book is to describe an efficient procedure to model dynamical contact problems with friction. This procedure is applied to different practical problems and verified by experiments. Friction contacts are used to transmit forces or to dissipate energy. Examples for dynamical engineering systems with friction are brakes, machine tools, motors, turbines, bearings or wheel-rail systems. A better understanding of friction phenomena result in improvements like the reduction of noise and maintenance costs, increased life time of machines and improved energy efficiency. Dependent on the features of the dynamic system with friction contacts, different contact models and solution methods like multi-scaling methods are developed and applied.

Engineering. --- Mechanics. --- Computational intelligence. --- Continuum mechanics. --- Mechanical engineering. --- Machinery. --- Continuum Mechanics and Mechanics of Materials. --- Mechanical Engineering. --- Computational Intelligence. --- Machinery and Machine Elements. --- Machinery --- Machines --- Manufactures --- Power (Mechanics) --- Technology --- Mechanical engineering --- Motors --- Power transmission --- Engineering, Mechanical --- Engineering --- Steam engineering --- Mechanics of continua --- Elasticity --- Mechanics, Analytic --- Field theory (Physics) --- Intelligence, Computational --- Artificial intelligence --- Soft computing --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Construction --- Industrial arts --- Curious devices --- Friction --- Contact mechanics --- Mathematical models. --- Contact problems (Mechanics) --- Mechanics, Contact --- Mechanics, Applied --- Mechanics --- Bearings (Machinery) --- Tribology --- Mechanics, Applied. --- Solid Mechanics. --- Classical Mechanics. --- Applied mechanics --- Engineering mathematics

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Frottement --- Contact --- Frottement de roulement/mecanique --- Mouvement/elastique (mecan.des corps elast.) --- Theorie des machines + mecanique technique

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Dieses Lehrbuch zeigt, wie man Schwingungen in Technik und Natur verstehen, deuten und in gewünschter Weise beeinflussen kann. Sowohl die physikalischen Grundlagen als auch die mathematische Behandlung aller relevanten Schwingungsformen werden anschaulich erklärt. In der aktuellen Auflage wurden Bilder qualitativ verbessert, der Text überarbeitet, das Literaturverzeichnis aktualisiert sowie konstruktive Hinweise der Leserschaft berücksichtigt. Der Inhalt Grundbegriffe und Darstellungsmittel - Freie Schwingungen - Selbsterregte Schwingungen - Parametererregte Schwingungen - Erzwungene Schwingungen - Koppelschwingungen - Kontinuumsschwingungen - Chaotische Bewegungen Die Zielgruppen Studierende der Ingenieurwissenschaften, der Physik und der Mathematik, Ingenieure Die Autoren Prof. Dr. Kurt Magnus (verst.), TU München Prof. Dr. Karl Popp (verst.), Leibnitz Universität Hannover Prof. Dr.-Ing. habil. Walter Sextro leitet den Lehrstuhl für Mechatronik und Dynamik der Fakultät für Maschinenbau an der Universität Paderborn.

Mechanics. --- Mechanics, Applied. --- Theoretical and Applied Mechanics.

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Schwingungen treten als nützliche oder auch als störende Erscheinungen fast überall in Natur und Technik auf. Deshalb ist es wichtig, sie zu verstehen, zu deuten oder auch in gewünschter Weise zu beeinflussen. Dieses Lehrbuch gibt eine Einführung in die physikalischen Grundlagen und die mathematische Behandlung von Schwingungen. In der aktuellen Auflage wurden der Text und die Bilder überarbeitet sowie konstruktive Hinweise von Fachkollegen berücksichtigt.　 Der Inhalt Grundbegriffe und Darstellungsmittel - Freie Schwingungen - Selbsterregte Schwingungen - Parametererregte Schwingungen - Erzwungene Schwingungen - Koppelschwingungen - Kontinuumsschwingungen - Chaotische Bewegungen - Aufgaben und Ergebnisse Die Zielgruppe Studierende der Ingenieurwissenschaften, der Physik und der Mathematik, berufstätige Ingenieure Die Autoren Prof. Dr. Kurt Magnus (verst.), TU München Prof. Dr. Karl Popp (verst.), Universität Hannover Prof. Dr. Walter Sextro leitet den Lehrstuhl für Mechatronik und Dynamik der Fakultät für Maschinenbau an der Universität Paderborn.

Vibration. --- Dynamical systems. --- Dynamics. --- Mechanics. --- Mechanics, Applied. --- Vibration, Dynamical Systems, Control. --- Theoretical and Applied Mechanics.

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Intelligent technical systems, which combine mechanical, electrical and software engineering with control engineering and advanced mathematics, go far beyond the state of the art in mechatronics and open up fascinating perspectives. Among these systems are so-called self-optimizing systems, which are able to adapt their behavior autonomously and flexibly to changing operating conditions. Self-optimizing systems create high value for example in terms of energy and resource efficiency as well as reliability. The Collaborative Research Center 614 "Self-optimizing Concepts and Structures in Mechanical Engineering" pursued the long-term aim to open up the active paradigm of self-optimization for mechanical engineering and to enable others to develop self-optimizing systems. This book is directed to researchers and practitioners alike. It provides a design methodology for the development of self-optimizing systems consisting of a reference process, methods, and tools. The reference process is divided into two phases the domain-spanning conceptual design and the domain-specific design and development. For the conceptual design a holistic approach is provided. Domain-specific methods and tools developed especially for the design and development of self-optimizing systems are described and illustrated by application examples. This book will enable the reader to identify the potential for self-optimization and to develop self-optimizing systems independently.

Physics --- Materials sciences --- Applied physical engineering --- Production management --- Computer science --- DFMA (design for manufacture and assembly) --- informatica --- ingenieurswetenschappen --- fysica