This book presents dynamic calculation in the context of structural mechanics and civil engineering. It explains the process of testing the strength of structures and determining the dynamic displacements, velocities, and accelerations, whose values; as measured by the influence of vibrations on people, and certain types of precision equipment, such as measuring instruments, high-precision machines, and equipment for microelectronics production, should not exceed the permissible limits. The first part of the book (15 chapters) is ideal as a textbook for advanced undergraduate, graduate, or post-graduate students taking their first course in structural dynamics.  This text can be used for two semesters. In addition, the book will serve as a primary reference for practicing engineers and research workers, as well as a self-study guide for students, researchers, and professional engineers. The second part of the book (chapter 16 onwards) is intended mainly for professionals and specialists in the field of dynamics of structures and related areas. 

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This book presents dynamic calculation in the context of structural mechanics and civil engineering. In addition, the book will serve as a primary reference for practicing engineers and research workers, as well as a self-study guide for students, researchers, and professional engineers.

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General Concept and Principles of Structural Dynamics.- The Fundamentals of the Theory of Calculation of Elastic Systems & Variation Principles of Structural Mechanics.- Energetic Methods of Structures Dynamics.- Free Vibrations of a System with Single-Degree-of-Freedom (SDOF).- Forced Vibrations of a System with Single-Degree-of-Freedom (SDOF).- Motion of an Elastic System with (SDOF) Under the Action of a Force Varying by Arbitrary Law.- Impact Loading.- Multi-degree-of-freedom system.- Forced Vibrations of a System with Many-Degrees-of-Freedom.- Vibration of Systems with a Finite Number of Degrees-of-Freedom.- Vibrations of Systems with an Infinitely Large Number-of-Degrees-of-freedom.- Vibration of Beams Under a Moving Load.- Dynamic Calculation of Frames With Distributed Mass on the Action of Harmonic Load.- Methods of Dynamic Design of Structural Elements.- Plates vibrations.- Vibration of Combine Arch System << Rigid Beam – Flexible Arch >>.- Vibration of Extended Frame Structures.- The Special Features of Solution of Dynamic Problems.- Nonlinear Vibration of Structural Elements.- Vibrational Damage and Vibration Control Measures. 

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This book presents dynamic calculation in the context of structural mechanics and civil engineering. It explains the process of testing the strength of structures and determining the dynamic displacements, velocities, and accelerations, whose values; as measured by the influence of vibrations on people, and certain types of precision equipment, such as measuring instruments, high-precision machines, and equipment for microelectronics production, should not exceed the permissible limits. The first part of the book (15 chapters) is ideal as a textbook for advanced undergraduate, graduate, or post-graduate students taking their first course in structural dynamics.  This text can be used for two semesters. In addition, the book will serve as a primary reference for practicing engineers and research workers, as well as a self-study guide for students, researchers, and professional engineers. The second part of the book (chapter 16 onwards) is intended mainly for professionals and specialists in the field of dynamics of structures and related areas. 

  • Maximizes understanding of concepts of dynamic analysis of structures; includes many of problems with solutions;
  • Presents analysis and methodologies used across engineering domains to solve structural dynamics problems;
  • Features a method of calculating the Hilbert transformation, allowing analysis of aprioristic models of dynamic systems;
  • Illustrates the modern methods of dynamic analysis of structures.
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Maximizes understanding of concepts of dynamic analysis of structures; includes many of problems with solutions Presents analysis and methodologies used across engineering domains to solve structural dynamics problems Features a method of calculating the Hilbert transformation, allowing analysis of aprioristic models of dynamic systems
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Produktdetaljer

ISBN
9783031635380
Publisert
2024-11-29
Utgiver
Vendor
Springer International Publishing AG
Høyde
254 mm
Bredde
178 mm
Aldersnivå
Graduate, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Om bidragsyterne

Dr. Levon Gregory Petrosian is a Professor of Structural Engineering and Structural Mechanics.  He received his B.S.C.E. and M.S. degrees from the Armenian National University of Architecture & Construction. He received a Ph.D. from the Moscow State University of Civil Engineering (MGSU) and the degree of Doctor of Technical Science from the Moscow Research Center of Construction, Research Institute of Building Structures (TSNIISK). Dr. Petrosian has taught undergraduate, graduate and postgraduate structure mechanics, structural dynamics and stability, classes for 22 years.