Aloña Retegi scite author profile

Bacterial cellulose (BC) films with different porosities have been developed in order to obtain improved mechanical properties. After 13 days of incubation of Gluconobacter xylinum bacteria in static culture, BC pellicles have been set. BC films have been compression molded after water dispersion of BC pellicles and filtration by applying different pressures (10, 50, and 100 MPa) to obtain films with different porosities. Tensile behavior has been analyzed in order to discuss the microstructureproperty relationships. Compression pressure has been found as an important parameter to control the final mechanical properties of BC films where slightly enhanced tensile strength and deformation at break are obtained increasing mold compression pressure, while modulus also increases following a nearly linear dependence upon film porosity. This behavior is related to the higher densification by increasing mold compression pressure that reduces the interfibrillar space, thus increasing the possibility of interfibrillar bonding zones. Network theories have been applied to relate film elastic properties with individual nanofiber properties.

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A common strategy to extracting cellulose nanoentities from different plants

Mondragón¹,

Fernandes²,

Retegi³

et al. 2014

Industrial Crops and Products

155

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Starch and cellulose nanocrystals together into thermoplastic starch bionanocomposites

González

Retegi

González

et al. 2015

Carbohydrate Polymers

130

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Aloña Retegi

Mechanical properties of short flax fibre bundle/polypropylene composites: Influence of matrix/fibre modification, fibre content, water uptake and recycling

Mechanical and thermal properties of soy protein films processed by casting and compression

Bacterial cellulose films with controlled microstructure–mechanical property relationships

A common strategy to extracting cellulose nanoentities from different plants

Starch and cellulose nanocrystals together into thermoplastic starch bionanocomposites

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