Spatial and Material Forces in Nonlinear Continuum Mechanics: A Dissipation-consistent Approach: 272 - Rilegato

Steinmann, Paul

 
9783030890698: Spatial and Material Forces in Nonlinear Continuum Mechanics: A Dissipation-consistent Approach: 272
Rilegato
ISBN 10: 3030890694 ISBN 13: 9783030890698
Casa editrice: Springer Nature, 2022

Sinossi

<div><br></div><div>This monograph details spatial and material vistas on non-linear continuum mechanics in a dissipation-consistent approach. Thereby, the spatial vista renders the common approach to nonlinear continuum mechanics and corresponding spatial forces, whereas the material vista elaborates on configurational mechanics and corresponding material or rather configurational forces. Fundamental to configurational mechanics is the concept of force. In analytical mechanics, force is a derived object that is power conjugate to changes of generalised coordinates. For a continuum body, these are typically the spatial positions of its continuum points. However, if in agreement with the second law, continuum points, e.g. on the boundary, may also change their material positions. Configurational forces are then power conjugate to these configurational changes. A paradigm is a crack tip, i.e. a singular part of the boundary changing its position during crack propagation, with the related configurational force, typically the J-integral, driving its evolution, thereby consuming power, typically expressed as the energy release rate. Taken together, configurational mechanics is an unconventional branch of continuum physics rationalising and unifying the tendency of a continuum body to change its material configuration. It is thus the ideal formulation to tackle sophisticated problems in continuum defect mechanics. Configurational mechanics is entirely free of restrictions regarding geometrical and constitutive nonlinearities and offers an accompanying versatile computational approach to continuum defect mechanics. In this monograph, I present a detailed summary account of my approach towards configurational mechanics, thereby fostering my view that configurational forces are indeed dissipation-consistent to configurational changes.</div>

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Informazioni sull?autore

<p>Paul Steinmann is a full professor at FAU Erlangen-Nuernberg, where he is active since 2007, and co-director of the GCEC in Glasgow. He is a member of GACM, GAMM and EUROMECH and was member of the managing board of ECCOMAS, member of the IACM general council, and president of the DEKOMECH (German Committee for Mechanics), the adhering organisation to IUTAM. He supervises several doctoral and postdoctoral researchers in the fields of material modelling, multi-scale methods, multi-physics problems, non-standard continua, configurational-failure-fracture mechanics, biomechanics as well as general developments in finite element and discretisation methods.</p><p></p>

Dalla quarta di copertina

<div><div><br></div><div>This monograph details spatial and material vistas on non-linear continuum mechanics in a dissipation-consistent approach. Thereby, the spatial vista renders the common approach to nonlinear continuum mechanics and corresponding spatial forces, whereas the material vista elaborates on configurational mechanics and corresponding material or rather configurational forces. Fundamental to configurational mechanics is the concept of force. In analytical mechanics, force is a derived object that is power conjugate to changes of generalised coordinates. For a continuum body, these are typically the spatial positions of its continuum points. However, if in agreement with the second law, continuum points, e.g. on the boundary, may also change their material positions. Configurational forces are then power conjugate to these configurational changes. A paradigm is a crack tip, i.e. a singular part of the boundary changing its position during crack propagation, with the related configurational force, typically the J-integral, driving its evolution, thereby consuming power, typically expressed as the energy release rate. Taken together, configurational mechanics is an unconventional branch of continuum physics rationalising and unifying the tendency of a continuum body to change its material configuration. It is thus the ideal formulation to tackle sophisticated problems in continuum defect mechanics. Configurational mechanics is entirely free of restrictions regarding geometrical and constitutive nonlinearities and offers an accompanying versatile computational approach to continuum defect mechanics. In this monograph, I present a detailed summary account of my approach towards configurational mechanics, thereby fostering my view that configurational forces are indeed dissipation-consistent to configurational changes.</div></div>

Le informazioni nella sezione "Su questo libro" possono far riferimento a edizioni diverse di questo titolo.

Editore
Springer Nature
Data di pubblicazione
2022
Lingua
Inglese
ISBN 10 
3030890694
ISBN 13 
9783030890698
Rilegatura
Copertina rigida
Numero edizione
1
Numero di pagine
424
Contatto del produttore
non disponibile
Persona responsabile
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Altre edizioni note dello stesso titolo

9783030890728: Spatial and Material Forces in Nonlinear Continuum Mechanics: A Dissipation-Consistent Approach: 272

Edizione in evidenza

ISBN 10:  3030890724 ISBN 13:  9783030890728
Casa editrice: Springer, 2023
Brossura