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@article{1548536, author = {Friák, Martin and Lago, Dušan and Koutná, Nikola and Holec, David and Rebok, Tomáš and Šob, Mojmír}, article_location = {Amsterdam}, article_number = {FEB 2020}, doi = {http://dx.doi.org/10.1016/j.cpc.2019.106863}, keywords = {composites; elasticity; anisotropy; superlattices; coherency; web application}, language = {eng}, issn = {0010-4655}, journal = {Computer Physics Communications}, note = {Autor/ka nereagovala na žádost o doplnění podílu. Podíl doplněn rovnocenně podle počtu participujících HS (dle rozhodnutí vedení PřF).}, title = {Multi-phase ELAStic Aggregates (MELASA) software tool for modeling anisotropic elastic properties of lamellar composites}, url = {http://dx.doi.org/10.1016/j.cpc.2019.106863}, volume = {247}, year = {2020} }
TY - JOUR ID - 1548536 AU - Friák, Martin - Lago, Dušan - Koutná, Nikola - Holec, David - Rebok, Tomáš - Šob, Mojmír PY - 2020 TI - Multi-phase ELAStic Aggregates (MELASA) software tool for modeling anisotropic elastic properties of lamellar composites JF - Computer Physics Communications VL - 247 IS - FEB 2020 SP - 1-9 EP - 1-9 PB - Elsevier SN - 00104655 N1 - Autor/ka nereagovala na žádost o doplnění podílu. Podíl doplněn rovnocenně podle počtu participujících HS (dle rozhodnutí vedení PřF). KW - composites KW - elasticity KW - anisotropy KW - superlattices KW - coherency KW - web application UR - http://dx.doi.org/10.1016/j.cpc.2019.106863 N2 - We introduce a new web-based tool called MELASA (Multi-phase ELASticAggregates), open-access available at https://melasa.cerit-sc.cz, for computations andvisualizations of anisotropic elastic properties of lamellar (nano-)composites. MELASAimplements a linear-elasticity method by M. Grimsditch and F. Nizzoli (Phys. Rev. B 33(1986) 5891), originally developed for superlattices of any symmetry. Our toolcomputes anisotropic elastic properties of a specific type of periodically reperatedlamellar (nano-)composites using matrices of elastic stiffnesses of co-existing phasesas input. Elastic properties are visualized in the form of directional dependencies ofselected elastic characteristics (Young's modulus and linear compressibility). MELASAfurther generalizes the Grimsditch-Nizzoli approach, which was originally formulated foronly two phases, to multiple-phase composites. Additionally, our implementation allowsfor treating internal rotations of local coordination systems corresponding to the naturalset of coordinates that match directional vectors of unit cell defining crystal latticewithin the co-existing phases. Fe-Al-based superalloy nanocomposites are employedas a numerical example of superlattices with the input and output elastic stiffnessesdetermined by quantum-mechanical calculations. In particular, three different atomicconfigurations of interfaces in superlattices containing the ordered Fe3Al phase and adisordered Fe-Al phase with 18.75at.\%Al (modeled by a special quasi-randomstructure, SQS) are considered. They differ by relative positions of sublattices in Fe3Al(an antiphase-like shift) and/or atomic planes in Fe-18.75at.%Al with respect to theinterface. ER -
FRIÁK, Martin, Dušan LAGO, Nikola KOUTNÁ, David HOLEC, Tomáš REBOK a Mojmír ŠOB. Multi-phase ELAStic Aggregates (MELASA) software tool for modeling anisotropic elastic properties of lamellar composites. \textit{Computer Physics Communications}. Amsterdam: Elsevier, 2020, roč.~247, FEB 2020, s.~1-9. ISSN~0010-4655. Dostupné z: https://dx.doi.org/10.1016/j.cpc.2019.106863.
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