Fyzikální ústav Akademie věd ČR

Multi-scale modeling of hierarchical biocomposites

Seminář Úterý, 30.06.2015 15:00

Přednášející: Martin Friák (Institute of Physics of Materials, Academy of Sciences of the Czech Republic, v.v.i., Brno)
Místo: Na Slovance, přednáškový sál v přízemí
Jazyk: anglicky
Pořadatelé: Oddělení teorie kondenzovaných látek

Abstract: Biological structural materials receive increasing attention by material scientists because they have been optimized during evolution and they are therefore ideally suited to study the efficiency of nature's design principles. These materials differ fundamentally from most man-made structural materials in being structurally heterogeneous by combining different in/organic constituents into composites with hierarchical organization. We propose a hierarchical model for the prediction of the elastic properties of a mineralized arthropod cuticle using quantum-mechanical calculations to find the elastic properties at the nanoscale and employing hierarchical homogenization to find the cuticle properties at all hierarchy levels. Based on our results we suggest that the mineral-protein matrix possesses a microstructure (so-called symmetric cell material) which exhibits extremal properties in terms of stiffness [1-3]. We also discuss the role of chitin and the multifunctional optimization of the cuticle in terms of a trade off between stiffness and transport capacity of the pore canal system. Recently, we have further extended our study to analyze the stiffening impact of magnesium additions on Mg-containing calcite particles [4].

References
[1] S. Nikolov et al., Advanced Materials 22 (2010) 519.
[2] S. Nikolov et al., Journal of the Mech. Behav. of Biomed. Mater. 4 (2011) 129.
[3] M. Petrov et al., Biopolymers 99 (2013) 22.
[4] L.-F. Zhu et al., Journal of the Mech. Behav. of Biomed. Mater. 20 (2013) 296.

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