A Mesoscopic Study of Plasticity and Fracture in Disordered Materials

A Mesoscopic Study of Plasticity and Fracture in Disordered Materials

Understanding how materials deform and break is a subject of critical importance in industry. At the same time, it requires from the knowledge of the basic processes governing the phenomenon and hence, fundamental physics research is a must. The presence of power law distributions in both temporal a...

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Main Author: Picallo González, Clara Beatriz
Other Authors: López Martín, Juan Manuel
Format: Doctoral Thesis
Language:English
Published: Universidad de Cantabria 2010
Subjects:
plasticidad
mecánica estadística
statistical mechanics
elasticidad
plasticity
elasticity
Física
53
Online Access:http://hdl.handle.net/10803/10648
http://nbn-resolving.de/urn:isbn:9788469413852
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spelling ndltd-TDX_UC-oai-www.tdx.cat-10803-106482013-07-12T06:12:42ZA Mesoscopic Study of Plasticity and Fracture in Disordered MaterialsPicallo González, Clara Beatrizplasticidadmecánica estadísticastatistical mechanicselasticidadplasticityelasticityFísica53Understanding how materials deform and break is a subject of critical importance in industry. At the same time, it requires from the knowledge of the basic processes governing the phenomenon and hence, fundamental physics research is a must. The presence of power law distributions in both temporal and spatial properties and the universality of the behavior seem to suggest that fracture and plasticity could be explained as some type of critical phenomena. This means that there should be some general principles that rule the process and that are more important than a detailed description of the interactions and atomic structure of the media. Hence, simplified theoretical approaches based on fundamental concepts can help to capture the essential ingredients in the system. This Thesis is devoted to the study of the deformation and failure of materials in the presence of disorder with the help of statistical mechanics tools and models.Universidad de CantabriaLópez Martín, Juan ManuelUniversidad de Cantabria. Departamento de Física Moderna2010-12-20info:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://hdl.handle.net/10803/10648urn:isbn:9788469413852TDR (Tesis Doctorales en Red)engADVERTENCIA. El acceso a los contenidos de esta tesis doctoral y su utilización debe respetar los derechos de la persona autora. Puede ser utilizada para consulta o estudio personal, así como en actividades o materiales de investigación y docencia en los términos establecidos en el art. 32 del Texto Refundido de la Ley de Propiedad Intelectual (RDL 1/1996). Para otros usos se requiere la autorización previa y expresa de la persona autora. En cualquier caso, en la utilización de sus contenidos se deberá indicar de forma clara el nombre y apellidos de la persona autora y el título de la tesis doctoral. No se autoriza su reproducción u otras formas de explotación efectuadas con fines lucrativos ni su comunicación pública desde un sitio ajeno al servicio TDR. Tampoco se autoriza la presentación de su contenido en una ventana o marco ajeno a TDR (framing). Esta reserva de derechos afecta tanto al contenido de la tesis como a sus resúmenes e índices.info:eu-repo/semantics/openAccess
collection NDLTD
language English
format Doctoral Thesis
sources NDLTD
topic plasticidad
mecánica estadística
statistical mechanics
elasticidad
plasticity
elasticity
Física
53
spellingShingle plasticidad
mecánica estadística
statistical mechanics
elasticidad
plasticity
elasticity
Física
53
Picallo González, Clara Beatriz
A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
description Understanding how materials deform and break is a subject of critical importance in industry. At the same time, it requires from the knowledge of the basic processes governing the phenomenon and hence, fundamental physics research is a must. The presence of power law distributions in both temporal and spatial properties and the universality of the behavior seem to suggest that fracture and plasticity could be explained as some type of critical phenomena. This means that there should be some general principles that rule the process and that are more important than a detailed description of the interactions and atomic structure of the media. Hence, simplified theoretical approaches based on fundamental concepts can help to capture the essential ingredients in the system. This Thesis is devoted to the study of the deformation and failure of materials in the presence of disorder with the help of statistical mechanics tools and models.
author2 López Martín, Juan Manuel
author_facet López Martín, Juan Manuel
Picallo González, Clara Beatriz
author Picallo González, Clara Beatriz
author_sort Picallo González, Clara Beatriz
title A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
title_short A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
title_full A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
title_fullStr A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
title_full_unstemmed A Mesoscopic Study of Plasticity and Fracture in Disordered Materials
title_sort mesoscopic study of plasticity and fracture in disordered materials
publisher Universidad de Cantabria
publishDate 2010
url http://hdl.handle.net/10803/10648
http://nbn-resolving.de/urn:isbn:9788469413852
work_keys_str_mv AT picallogonzalezclarabeatriz amesoscopicstudyofplasticityandfractureindisorderedmaterials
AT picallogonzalezclarabeatriz mesoscopicstudyofplasticityandfractureindisorderedmaterials
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