Efficient fast Fourier transform-based solvers for computing the thermomechanical behavior of applied materials
Abstract
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.
Keywords
Mikromechanik; Homogenisierung; Rechnergestützte Mechanik; Nichtlineare Optimierung; Themomechanik; Micromechanics; homogenization; computational mechanics; nonlinear optimization; thermomechanicsDOI
10.5445/KSP/1000148765ISBN
9783731512202Publisher
KIT Scientific PublishingPublisher website
https://www.ksp.kit.edu/index.php?link=shop&sort=allPublication date and place
2022Series
Schriftenreihe Kontinuumsmechanik im Maschinenbau, 21Classification
Mechanical engineering and materials