Magnetoelastic Vibrations and Stability of Magnetically Active Plates and Shells

Baghdasaryan, Gevorg Y., Mikilyan, Marine A.

  • 出版商: Springer
  • 出版日期: 2024-06-26
  • 售價: $6,380
  • 貴賓價: 9.5$6,061
  • 語言: 英文
  • 頁數: 273
  • 裝訂: Hardcover - also called cloth, retail trade, or trade
  • ISBN: 3031603060
  • ISBN-13: 9783031603068
  • 海外代購書籍(需單獨結帳)

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商品描述

This book introduces the reader to methods of mathematical modeling and solving non-stationary (dynamic) problems of the theory of magnetoelasticity, as well as to give an idea of the wealth of physical effects caused by the interaction of electromagnetic and mechanical phenomena in magnetically active elastic thin bodies. The studies are mainly limited to a model of isotropic body under the assumption of small deformations. In the first chapter of the book, based on the basic connected nonlinear equations and relations of mechanics and quasi-static electrodynamics of continuum media, a system of equations of magnetoelasticity, surface conditions, and governing equations describing the behavior of disturbances in a magnetoactive medium interacting with an external magnetic field is obtained. On this basis, in Chapters 2 and 3, using the main equations and relations of magnetoelastic vibrations and stability of magnetically soft, thin plates and shells are obtained. By solving specific applied problems, a number of qualitative and quantitative results were identified, caused by the interaction of mechanical and magnetic phenomena in ferromagnetic thin bodies. An approximate formula is obtained to determine magnetohydrodynamic pressure on the oscillating surfaces of plate flowing by supersonic flow of perfectly conducting gas in the presence of magnetic field. This formula is the generalization of well-known formula obtained on the basis of the classical piston theory of gas dynamics in the case of magneto-gas-dynamic flow. On this basis, it became possible to solve complex problems of aeromagnetoelasticity. In the 4th and 5th chapters magnetoelastic processes in superconducting thin shells located in stationary and non-stationary magnetic fields are studied. Two-dimensional equations and corresponding conditions are obtained, which characterize vibrations and stability of superconducting cylindrical and spherical shells under the influence of the given magnetic field. By solving specific problems, the possibility of loss of both static and dynamic stability of thin superconducting bodies under the influence of external magnetic field has been established. The sixth chapter is devoted to mathematical modeling and investigation of issues of dynamics of magnetostrictive plates in magnetic fields (stationary and non-stationary) of several orientations. To study the processes of magnetoelastic interaction in the plate under consideration with complex physical properties of its material, the main postulates of the classical theories and methods were used. The influence of plate in-homogeneity on the processes under consideration was also studied. Dynamic processes in layered plates have been studied. It is shown that heterogeneity is sufficient to control optimally the studied dynamic processes, especially those that arise as a result of interaction. The last 7th chapter is devoted to the investigation of stability of dielectric thin plates in a supersonic flow of perfectly conducting gas in the presence of magnetic field. The problems were studied in both linear and nonlinear formulations. Based on the formula obtained by the authors specific problems of stability were solved. Influence of magnetic field on the flutter characteristics is studied.

商品描述(中文翻譯)

本書向讀者介紹數學建模的方法以及解決非穩態(動態)磁彈性理論問題的技巧,並提供有關電磁現象與機械現象在磁性活性彈性薄體中相互作用所引起的豐富物理效應的概念。研究主要限於在小變形假設下的各向同性體模型。在本書的第一章中,基於連接的非線性基本方程和連續介質的力學及準靜態電動力學關係,得到了描述與外部磁場相互作用的磁彈性方程系統、表面條件和控制方程,這些方程描述了在磁活性介質中擾動行為的特徵。在此基礎上,在第二章和第三章中,利用磁彈性振動和磁性軟薄板及殼體穩定性的主要方程和關係進行了研究。通過解決具體的應用問題,確定了一系列由於機械和磁現象在鐵磁薄體中相互作用而引起的定性和定量結果。獲得了一個近似公式,用於確定在磁場存在下,超音速流動的完美導電氣體流經振動表面時的磁流體動力學壓力。這個公式是基於經典活塞理論在磁氣動力學流動情況下獲得的著名公式的推廣。在此基礎上,解決了氣動磁彈性複雜問題。在第四章和第五章中,研究了位於靜態和非靜態磁場中的超導薄殼的磁彈性過程。獲得了描述在給定磁場影響下超導圓柱形和球形殼體振動和穩定性的二維方程及相應條件。通過解決具體問題,確定了在外部磁場影響下,薄超導體的靜態和動態穩定性可能會喪失。第六章專注於在多種方向的磁場(靜態和非靜態)中,磁致伸縮板的動力學數學建模和研究。為了研究考慮中的板與其材料的複雜物理特性之間的磁彈性相互作用過程,使用了經典理論和方法的主要公設。還研究了板的不均勻性對考慮過程的影響。對分層板中的動態過程進行了研究。結果顯示,不均勻性足以優化控制所研究的動態過程,特別是那些由相互作用引起的過程。最後第七章專注於在磁場存在下,完美導電氣體的超音速流動中介電薄板的穩定性研究。這些問題在線性和非線性表述中進行了研究。基於作者獲得的公式,解決了具體的穩定性問題。研究了磁場對顫振特性的影響。

作者簡介

Gevorg Baghdasaryan was distinguished scientist, whose contribution to the field of mechanics is irrevocable. His research in mechanics has been regularly presented to the international scientific community, receiving high appraisal. He is a co-founder of the scientific direction "Magnetoelasticity". He also headed a scientific school and paved the way for young scientists with great enthusiasm. Thanks to his scientific activity, he became a widely recognized scientist, who always called attention to important scientific problems, the results of which are permanent values for the Armenian scientific community

Marine Mikilyan received her MS degree in mathematics from YSU and Ph.D degree in mechanics from the Institute of Mechanics at the National Academy of Sciences of the Republic of Armenia. She is currently a leading researcher in the Institute of Mechanics, NAS RA and spent over 30 years conducting research in the field of Magnetoelasticity and Aeroelasticity. She works in the field of Higher Educational System, also. During her 30 years at Higher Educational System, she has held numerous roles, including Associate professor at RAU in Yerevan, Armenia.

作者簡介(中文翻譯)

Gevorg Baghdasaryan 是一位傑出的科學家,他在力學領域的貢獻不可磨滅。他在力學方面的研究經常向國際科學界展示,並獲得高度評價。他是「磁彈性」科學方向的共同創始人,並且曾領導一個科學學派,以極大的熱情為年輕科學家鋪路。由於他的科學活動,他成為一位廣受認可的科學家,始終關注重要的科學問題,其研究成果對亞美尼亞科學界具有持久的價值。

Marine Mikilyan 於亞美尼亞國立大學獲得數學碩士學位,並在亞美尼亞國家科學院力學研究所獲得力學博士學位。她目前是亞美尼亞國家科學院力學研究所的首席研究員,並在磁彈性和氣動彈性領域進行了超過30年的研究。她也在高等教育系統領域工作。在高等教育系統的30年中,她擔任過多個職位,包括亞美尼亞埃里溫的RAU副教授。