efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf

efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf

The mechanical behavior of many applied materials arises from their microstructure. Thus, to aid the design, development and industrialization of new materials, robust computational homogenization methods are indispensable. The present thesis is devoted to investigating and developing FFT-based micr...

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Γλώσσα:English
Έκδοση: KIT Scientific Publishing 2022
Διαθέσιμο Online:https://doi.org/10.5445/KSP/1000148765
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spelling oapen-20.500.12657-588992022-10-19T03:17:56Z Efficient fast Fourier transform-based solvers for computing the thermomechanical behavior of applied materials Wicht, Daniel Mikromechanik; Homogenisierung; Rechnergestützte Mechanik; Nichtlineare Optimierung; Themomechanik; Micromechanics; homogenization; computational mechanics; nonlinear optimization; thermomechanics bic Book Industry Communication::T Technology, engineering, agriculture::TG Mechanical engineering & materials The mechanical behavior of many applied materials arises from their microstructure. Thus, to aid the design, development and industrialization of new materials, robust computational homogenization methods are indispensable. The present thesis is devoted to investigating and developing FFT-based micromechanics solvers for efficiently computing the (thermo)mechanical response of nonlinear composite materials with complex microstructures. 2022-10-18T11:07:56Z 2022-10-18T11:07:56Z 2022 book https://library.oapen.org/handle/20.500.12657/58899 eng Schriftenreihe Kontinuumsmechanik im Maschinenbau application/pdf Attribution-ShareAlike 4.0 International efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf https://doi.org/10.5445/KSP/1000148765 KIT Scientific Publishing 10.5445/KSP/1000148765 10.5445/KSP/1000148765 44e29711-8d53-496b-85cc-3d10c9469be9 21 336 open access
institution OAPEN
collection DSpace
language English
description The mechanical behavior of many applied materials arises from their microstructure. Thus, to aid the design, development and industrialization of new materials, robust computational homogenization methods are indispensable. The present thesis is devoted to investigating and developing FFT-based micromechanics solvers for efficiently computing the (thermo)mechanical response of nonlinear composite materials with complex microstructures.
title efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
spellingShingle efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
title_short efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
title_full efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
title_fullStr efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
title_full_unstemmed efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
title_sort efficient-fast-fourier-transform-based-solvers-for-computing-the-thermomechanical-behavior-of-applied-materials.pdf
publisher KIT Scientific Publishing
publishDate 2022
url https://doi.org/10.5445/KSP/1000148765
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