Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.

In this thesis we present a general theory able to comprehend important phenomena related to the dynamics of a polycrystalline material such as the ice of an ice sheet. The theoretical framework is founded upon the Theory of Mixtures with Continuous Diversity, for which the second law of thermodynam...

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Main Author: Placidi, Luca
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2005
Subjects:
Ice Sheet
Online Access:http://tuprints.ulb.tu-darmstadt.de/614/
https://tuprints.ulb.tu-darmstadt.de/614/1/placidi05_PhD.pdf
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spelling ftulbdarmstadt:oai:tuprints.ulb.tu-darmstadt.de:614 2024-09-15T18:12:35+00:00 Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization. Placidi, Luca 2005-10-14 application/pdf http://tuprints.ulb.tu-darmstadt.de/614/ https://tuprints.ulb.tu-darmstadt.de/614/1/placidi05_PhD.pdf eng en eng https://tuprints.ulb.tu-darmstadt.de/614/1/placidi05_PhD.pdf Placidi, Luca <http://tuprints.ulb.tu-darmstadt.de/view/person/Placidi=3ALuca=3A=3A.html> (2005)Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization. Technische Universität DarmstadtPh.D. Thesis, Primary publication In Copyright info:eu-repo/semantics/openAccess Ph.D. Thesis PeerReviewed info:eu-repo/semantics/doctoralThesis 2005 ftulbdarmstadt 2024-07-10T06:37:57Z In this thesis we present a general theory able to comprehend important phenomena related to the dynamics of a polycrystalline material such as the ice of an ice sheet. The theoretical framework is founded upon the Theory of Mixtures with Continuous Diversity, for which the second law of thermodynamics is exploited to get a complete set of restrictions on the constitutive equations. The main goal of such an exploitation is to provide a theoretical tool to investigate the effects of the micostructure on the mechanical behaviour of polycrystalline materials. An explicit anisotropic constitutive law is given for the stretching tensor of an incompressible polycrystalline material in terms of its deviatoric stress tensor and of the distribution (Orientation Distribution Function or ODF) of the lattice orientations of the crystallites belonging to the polycrystal. Such a law is able to comprehend the mechanical response for any state of deformation, it is objective and its validity is checked by some remarkable examples. The evolution of the anisotropy is modelled with the aid of the evolution of the ODF, and it is not postulated ab initio. The balance of mass, as it is given in the form of the presented mixture with continuous diversity, provides such an evolution equation, that contains two constitutive functions. They are able to model the grain rotation and the Grain Boundary Migation (GBM) and recrystallization, respectively. We provide also a proposal for the explicit form of these two functions. From the balance of mass in the form of the presented mixture with continuous diversity, we have also derived a general evolution equation of the distribution of grain sizes. Two constitutive functions are present in this new equation. They are able to model the effects of grain growth and polygonization, respectively, on the evolution of the distribution of grain sizes. Even in this case, we give our proposal for the explicit form of these two functions. Results about the evolution of the dislocation density is also ... Doctoral or Postdoctoral Thesis Ice Sheet TU Darmstadt: tuprints
institution Open Polar
collection TU Darmstadt: tuprints
op_collection_id ftulbdarmstadt
language English
description In this thesis we present a general theory able to comprehend important phenomena related to the dynamics of a polycrystalline material such as the ice of an ice sheet. The theoretical framework is founded upon the Theory of Mixtures with Continuous Diversity, for which the second law of thermodynamics is exploited to get a complete set of restrictions on the constitutive equations. The main goal of such an exploitation is to provide a theoretical tool to investigate the effects of the micostructure on the mechanical behaviour of polycrystalline materials. An explicit anisotropic constitutive law is given for the stretching tensor of an incompressible polycrystalline material in terms of its deviatoric stress tensor and of the distribution (Orientation Distribution Function or ODF) of the lattice orientations of the crystallites belonging to the polycrystal. Such a law is able to comprehend the mechanical response for any state of deformation, it is objective and its validity is checked by some remarkable examples. The evolution of the anisotropy is modelled with the aid of the evolution of the ODF, and it is not postulated ab initio. The balance of mass, as it is given in the form of the presented mixture with continuous diversity, provides such an evolution equation, that contains two constitutive functions. They are able to model the grain rotation and the Grain Boundary Migation (GBM) and recrystallization, respectively. We provide also a proposal for the explicit form of these two functions. From the balance of mass in the form of the presented mixture with continuous diversity, we have also derived a general evolution equation of the distribution of grain sizes. Two constitutive functions are present in this new equation. They are able to model the effects of grain growth and polygonization, respectively, on the evolution of the distribution of grain sizes. Even in this case, we give our proposal for the explicit form of these two functions. Results about the evolution of the dislocation density is also ...
format Doctoral or Postdoctoral Thesis
author Placidi, Luca
spellingShingle Placidi, Luca
Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
author_facet Placidi, Luca
author_sort Placidi, Luca
title Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
title_short Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
title_full Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
title_fullStr Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
title_full_unstemmed Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization.
title_sort thermodynamically consistent formulation of induced anisotropy in polar ice accounting for grain rotation, grain-size evolution and recrystallization.
publishDate 2005
url http://tuprints.ulb.tu-darmstadt.de/614/
https://tuprints.ulb.tu-darmstadt.de/614/1/placidi05_PhD.pdf
genre Ice Sheet
genre_facet Ice Sheet
op_relation https://tuprints.ulb.tu-darmstadt.de/614/1/placidi05_PhD.pdf
Placidi, Luca <http://tuprints.ulb.tu-darmstadt.de/view/person/Placidi=3ALuca=3A=3A.html> (2005)Thermodynamically Consistent Formulation of Induced Anisotropy in Polar Ice Accounting for Grain Rotation, Grain-size Evolution and Recrystallization. Technische Universität DarmstadtPh.D. Thesis, Primary publication
op_rights In Copyright
info:eu-repo/semantics/openAccess
_version_ 1810450178543452160

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