PREDICTIVE MODELING OF MECHANICAL PROPERTIES OF METAL FILLED ANODIC ALUMINUM OXIDE

resumo

Filling dielectric porous matrices, particularly anodic aluminum oxide, with metal confers a promising solution for nanocomposite creation. In this regard, the problem of estimating and predicting the physical and mechanical properties of such materials is of prime importance. The present work focuses on the numerical modeling of the effective and ultimate stress-strain (under compression) characteristics of nanocomposites based on anodic aluminum oxide with unidirectional filamentary pores filled with different metals (In, Sn, and Zn). The dependences of the tensor components of the effective elastic moduli, coefficients of elastic anisotropy (in different directions), and compression strength (along the nanowires) on the structure parameters and the concentration of nanowires are investigated.

palavras-chave

HYDROXYAPATITE BIOMATERIALS; THERMOELASTIC PROPERTIES; COMPOSITE-MATERIALS; AVERAGE STRESS; NANOWIRES; PORES; METAMATERIALS; ELASTICITY; INCLUSIONS; STRENGTH

categoria

Materials Science; Mechanics

autores

Bardushkin, VV; Shilyaeva, YI; Gavrilov, SA; Silibin, MV; Yakovlev, VB; Zheludkevich, ML; Popenko, NI

nossos autores

Grupos

agradecimentos

This work was financially supported by the Ministry of Education and Science of the Russian Federation: reference number 2014/101.

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