Multiscale modelling of crazing in glassy polymers under cyclic loading

Crazing is the primary damage mechanism in amorphous thermoplastics, enabling load transfer and enhancing fracture toughness. This dissertation develops a multiscale model for crazing, combining molecular dynamics and continuum micromechanics to elucidate its response and its interaction with the ad...

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Glavni autor: Laschuetza, Tobias
Format: Online
Jezik:engleski
Izdano: KIT Scientific Publishing 2025
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Online pristup:ONIX_20251202T160246_9783731514091_19
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author Laschuetza, Tobias
author_browse Laschuetza, Tobias
author_facet Laschuetza, Tobias
author_sort Laschuetza, Tobias
collection Directory of Open Access Books
description Crazing is the primary damage mechanism in amorphous thermoplastics, enabling load transfer and enhancing fracture toughness. This dissertation develops a multiscale model for crazing, combining molecular dynamics and continuum micromechanics to elucidate its response and its interaction with the adjacent bulk material under cyclic loading. The finite element simulations successfully reproduce important craze, shear band and failure characteristics reported in the experimental literature.
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institution Directory of Open Access Books
language eng
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spelling doab-20.500.12854ir-1698472025-12-03T05:24:53Z Multiscale modelling of crazing in glassy polymers under cyclic loading Laschuetza, Tobias Crazing Zyklische Belastung Mikromechanisches Kontinuumsmodell Molekulardynamik-Simulation Bruch und Schädigung Cyclic loading Micromechanical continuum model Molecular dynamics simulation Fracture and damage thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes Crazing is the primary damage mechanism in amorphous thermoplastics, enabling load transfer and enhancing fracture toughness. This dissertation develops a multiscale model for crazing, combining molecular dynamics and continuum micromechanics to elucidate its response and its interaction with the adjacent bulk material under cyclic loading. The finite element simulations successfully reproduce important craze, shear band and failure characteristics reported in the experimental literature. 2025-12-03T05:24:52Z 2025-12-03T05:24:52Z 2025-12-02T15:13:22Z 2025 book ONIX_20251202T160246_9783731514091_19 2363-4936 (Online) https://library.oapen.org/handle/20.500.12657/108911 9783731514091 https://directory.doabooks.org/handle/20.500.12854/169847 eng Schriftenreihe des Instituts für Mechanik, Karlsruher Institut für Technologie open access image/jpeg Attribution-ShareAlike 4.0 International https://library.oapen.org/bitstream/20.500.12657/108911/1/9783731514091.pdf KIT Scientific Publishing KIT Scientific Publishing 10.5445/KSP/1000178410 10.5445/KSP/1000178410 68fffc18-8f7b-44fa-ac7e-0b7d7d979bd2 9783731514091 KIT Scientific Publishing 124 Karlsruhe, Germany open access
spellingShingle Crazing
Zyklische Belastung
Mikromechanisches Kontinuumsmodell
Molekulardynamik-Simulation
Bruch und Schädigung
Cyclic loading
Micromechanical continuum model
Molecular dynamics simulation
Fracture and damage
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
Laschuetza, Tobias
Multiscale modelling of crazing in glassy polymers under cyclic loading
title Multiscale modelling of crazing in glassy polymers under cyclic loading
title_full Multiscale modelling of crazing in glassy polymers under cyclic loading
title_fullStr Multiscale modelling of crazing in glassy polymers under cyclic loading
title_full_unstemmed Multiscale modelling of crazing in glassy polymers under cyclic loading
title_short Multiscale modelling of crazing in glassy polymers under cyclic loading
title_sort multiscale modelling of crazing in glassy polymers under cyclic loading
topic Crazing
Zyklische Belastung
Mikromechanisches Kontinuumsmodell
Molekulardynamik-Simulation
Bruch und Schädigung
Cyclic loading
Micromechanical continuum model
Molecular dynamics simulation
Fracture and damage
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
topic_facet Crazing
Zyklische Belastung
Mikromechanisches Kontinuumsmodell
Molekulardynamik-Simulation
Bruch und Schädigung
Cyclic loading
Micromechanical continuum model
Molecular dynamics simulation
Fracture and damage
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
url ONIX_20251202T160246_9783731514091_19
work_keys_str_mv AT laschuetzatobias multiscalemodellingofcrazinginglassypolymersundercyclicloading