4 edition of Electromagnetomechanical interactions in deformable solids and structures found in the catalog.
|Statement||edited by Yoshiyuki Yamamoto and Kenzo Miya.|
|Contributions||Yamamoto, Yoshiyuki., Miya, Kenzo.|
|The Physical Object|
|Number of Pages||434|
Capturing real-life fluid-structure interactions. In a simplified simulation, fluid would move through solid structures without imposing any deformation of the topology. Realistically, however, the fluid pressure and shear stress calculated in the fluid simulation cause the solids to deform. IUTAM Symposium on the Electromagnetomechanical Interactions in Deformable Solids and Structures (Tokyo, Japan, October ).The Proceedings of the Symposium, edited by Y. Yamamoto and K. Miya, have been published by North-Holland Publishing Co., Amsterdam,
6Elasticity is a form of materials response that refers to immediate and time-independent deformation upon loading, and complete and instant recovery of the original geometry upon removal of the load. A material is elastic or it is not, one material cannot be “more elastic” than another, and a material can be elastic without obeying the. It then describes the atomic structure of sharp cracks, the topical subject of crack-microstructure interactions in ceramics, with special focus on the concepts of crack-tip shielding and crack-resistance curves, and finally deals with indentation fracture, flaws and structural s: 1.
(Right) Cleavage surfaces of an amorphous solid. Obsidian, a volcanic glass with the same chemical composition as granite (typically KAlSi 3 O 8), tends to have curved, irregular surfaces when cleaved. Crystalline solids, or crystals, have distinctive internal structures that in turn lead to distinctive flat surfaces, or faces. This unique book shows how chemistry and physics come together in the solid state and on surfaces. Using a lively, graphic, descriptive approach, it teaches chemists the language that is necessary to understand the electronic structure of extended systems. And, at the same time, it demonstrates how a chemical, frontier-orbital, approach to solid state and surface bonding and reactivity may be.
Appointments and benefices, jurisdiction, and taxation
Derbyshire County Library 1923-1974
Personal Forms on File 1998 Update (Personal Forms on File Update)
Mental Health Services Research
In the court of public opinion.
Training Cost Analysis
San Franciscos Twin Peaks
feeling for Nature in English pastoral poetry.
Food aid needs
Composition, communication and comprehension
Borrowed feathers, and other fables
Magnetoelastic buckling of ferromagnetic and superconducting structures. In Y. Yamamoto, & K. Miya (Eds.), Electromagnetomechanical interactions in deformable solids and structures (Proceedings of the IUTAM Symposium, Tokyo, Japan, OctoberCited by: 3. Get this from a library. Electromagnetomechanical interactions in deformable solids and structures: proceedings of the IUTAM Symposium held in Tokyo, Japan, October [Yoshiyuki Yamamoto; Kenzo Miya;].
In: Electromagnetomechanical Interactions in Deformable Solids and Structures (Y. Yamamoto and K. Miya, E d s.), pp. Weissenburger, D.W. Some Recent Studies of the Magnetomechanics of Magnetic Fusion Reactor Components.
In: Electromagnetomechanical Interactions in Deformable Solids and Structures (Y. Yamamoto and K. Miya, E d by: 2.
Request PDF | On modelling electromagnetomechanical interactions in deformable solids | We revisit the notion of electromagnetomechanical interactions.
Yamamoto and K. Miya, Eds., Electromagnetomechanical Interactions in Deformable Solids and Structures, (Elsevier Sci. Pub. V., North Holland, ). Google ScholarCited by: 4. Developments in the Numerical Modeling of NDT Phenomena W. LORD Palmer Professor of Electrical Engineering, Iowa State University, Ames, IowaU.S.A.
ABSTRACT Energy/defect interactions associated with the nondestructive inspection of materials are best modeled by numerical methods because of the awkward defect shapes and the nonlinear material properties often. Yamamoto, Y.; Miya, K. (eds.), Electromagnetomechanical Interactions in Deformable Solids and Structures.
Proceedings IUTAM Symposium Tokyo INTRODUCTION Electromagnetic interactions in deformable solids have been a subject of recent interest (Maugin,Yamamoto and Miya, ). If flaws or cracks exist in the structural materials under the electromagnetic field, electromagneto-fracture mechanics approach has to be considered (Shindo,Terada, ).
A list of his publications contains above 90 items including five books (one in English). Bogomol’nyi’s research interests include mechanics of solids, piezoelectronics, physics, and technology of materials. Electromagnetomechanical Interactions in Deformable Solids and Structures, Y. Yamamoto, K.
Y. Nakasone, H. Fujita and K. Ishikawa, “Electromagnetic Dynamic Fracture of Cryogenic Materials at Liquid Helium Temperature” Electromagnetomechanical Interactions in Deformable Solids and Structures”, () pp.
This paper investigates the problem of theoretical modelling of eddy current nondestructive tests for electromagnetoelastic materials.
With the aid of an adjustable static magnetic field acting on test electromagnetoelastic solids, an eddy current NDT approach, which can account for the effect of electromagnetomechanical interaction, is proposed and a fundamental system of.
Part of the Springer Series on Wave Phenomena book series (SSWAV, volume 7) Abstract. The propagation of coupled surface waves in a semiconducting half-space with relaxation of charge carrier field is considered. In Electromagnetomechanical Interactions in Deformable Solids and Structures, ed.
by Y. Yamamoto, K. Miya, North-Holland. We revisit the notion of electromagnetomechanical interactions in a general continuum, recalling first the microscopic approach in the manner of Lorentz, and then passing to a continuum via some average. The source terms thus obtained may be carried in a direct approach to the balance laws of continuum thermomechanics.
A second approach consists in exploiting a generalized form of the. [B13] Mode Interactions and Resonances in the Mechanics of Deformable Solids (22nd Polish Solid Mechanics Conference, Golun-Gdansk, ].
Abstract pp in Polish version, pp in English version, IPPT-PAN, Warszawa (). Summary. A series of examples dealing with electromagnetic elastic solids or compo site structures is presented to illustrate some large classes of phenomena in micromechanics (mechanics of materials with a microstructure).
These examples deal either with the phenomenon of nonlinear localized moving structures such as solitary waves in a magnetoelastic thin film, in martensitic alloys, or in a. Electromagnetomechanical Interactions in Deformable Solids and Structures, North Holland, Amsterdam (). zbMATH Google Scholar  Maugin, G.A.
Continuum Mechanics of Electromagnetic Solids, North Holland, Amsterdam (). zbMATH Google Scholar. You can write a book review and share your experiences.
Other readers will always be interested in your opinion of the books you've read. Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them. Fluid–structure interaction (FSI) is the interaction of some movable or deformable structure with an internal or surrounding fluid flow.
Fluid–structure interactions can be stable or oscillatory. In oscillatory interactions, the strain induced in the solid structure causes it to move such that the source of strain is reduced, and the structure returns to its former state only for the.
CiteScore: ℹ CiteScore: CiteScore measures the average citations received per peer-reviewed document published in this title. CiteScore values are based on citation counts in a range of four years (e.g. ) to peer-reviewed documents (articles, reviews, conference papers, data papers and book chapters) published in the same four calendar years, divided by the number of.
This book starts by introducing the fundamental concepts of mathematical continuum mechanics for fluids and solids and their coupling.
Special attention is given to the derivation of variational formulations for the subproblems describing fluid- and solid-mechanics as well as the coupled fluid-structure interaction problem. Many systems in nature have arborescent and bifurcated structures such as trees, fern, snails, lungs, the blood vessel system, but also porous materials etc.
look self-similar over a wide range of.a series of graduate level subjects on the Mechanics of Solids and Structures that included: Mechanics of Solid Materials, Mechanics of Continuous Media, Solid Mechanics: Elasticity, Solid Mechanics: Plasticity and Inelastic Deformation, Advanced Mechanical Behavior of Materials, interactions with my.Structural mechanics is the study of the mechanical behavior of solids and structures.
Aerospace structures differ from other structures due to their high demands for performance and lightweight. Modern aerospace structures typically require the use of composite materials, advanced multifunctional materials and thin-walled constructions.