Articolo in rivista, 2019, ENG, 10.3390/ma12060990

Thermal, Mechanical, Viscoelastic and Morphological Properties of Poly(lactic acid) based Biocomposites with Potato Pulp Powder Treated with Waxes

Righetti M.C.; Cinelli P.; Mallegni N.; Massa C.A.; Aliotta L.; Lazzeri A.

CNR-IPCF, Pisa, Italy; Department of Civil and Industrial Engineering, University of Pisa, Pisa, Italy

The thermal, mechanical and viscoelastic properties of biocomposites of poly(lactic acid) (PLA) with 20 wt.% of potato pulp powder were investigated. The potato pulp powder utilized is a byproduct from the production and extraction of starch. The results showed that the potato pulp powder does not act as reinforcement, but as filler for PLA, due to an unfavorable aspect ratio and the irregular shape of the particles. In order to improve the mechanical response of the PLA/potato pulp powder biocomposites, surface treatment of the potato pulp particles with bio-based and petroleum-based waxes was investigated. This treatment was found to improve the properties of the biocomposites, enhancing the adhesion between the PLA based polymeric matrix and the potato pulp fibers. The best result is obtained with a petroleum-based wax, but also the bio-based waxes lead to good mechanical properties of the biocomposite. Thus, the addition to PLA of potato pulp powder, treated with waxes, appears a method able to (i) utilize and valorize an abundant agro-food biomass such as potato pulp, according to the principles of circular economy, (ii) favor the production of articles with properties valuable for practical applications, and (iii) reduce the cost of the final products, considering the relatively high cost of PLA.

Materials (Basel) 12 , pp. 990–?

Keywords

bio-based polymers, natural fibers, biomass, biocomposites, fiber, matrix adhesion, compatibilizer

CNR authors

Lazzeri Andrea, Cinelli Patrizia, Mallegni Norma, Massa Carlo Andrea, Righetti Maria Cristina

CNR institutes

IPCF – Istituto per i processi chimico-fisici