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Bio-inspired Electrospun Fibre Structures - Numerical Model (CROSBI ID 202065)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Mijović, Budimir ; Agić, Ante Bio-inspired Electrospun Fibre Structures - Numerical Model // Journal of fiber bioengineering and informatics, 6 (2013), 1; 23-32

Podaci o odgovornosti

Mijović, Budimir ; Agić, Ante

engleski

Bio-inspired Electrospun Fibre Structures - Numerical Model

A systems approach that integrates processing, structure, property and performance relations has been used in the design of multilevel-structured fibrous materials. For electrospun fibrous structure, numerical implementation of multiscale materials philosophy provides a hierarchy of computational models defining design parameters that are integrated through computational continuum mechanics. Electrospun micro/nano (multiscale) poly("-caprolactone) (PCL) fibrous scaffolds were studied. The fibrous structures were evaluated for their mechanical, morphological and cell attachment properties. The cell attachment studies showed that cell activity on multi-scale scaffolds was higher compared to micro-fibrous scaffolds. These results suggest that the combination of a micro- and nano-fiber hierarchical sca?old could be more beneficial for tissue engineering applications than for individual scaffolds.

Electrospun PCL; Multiscale; Numerical Model

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Podaci o izdanju

6 (1)

2013.

23-32

objavljeno

1940-8676

Povezanost rada

Strojarstvo, Tekstilna tehnologija

Indeksiranost