WeiDan Ding scite author profile

Melt blending is one of the most promising techniques for eliminating poly(lactic acid)'s (PLA) numerous drawbacks. However, success in a typical melt blending process is usually achieved through the inclusion of high concentrations of a second polymeric phase which can compromise PLA's green nature. In a pioneering study, we introduce the production of in situ microfibrillar PLA/polyamide-6 (PA6) blends as a cost-effective and efficient technique for improving PLA's properties while minimizing the required PA6 content. Predominantly biobased products, with only 3 wt % of in situ generated PA6 microfibrils (diameter ≈200 nm), were shown to have dramatically improved crystallization kinetics, mechanical properties, melt elasticity and strength, and foaming-ability compared with PLA. Crucially, the microfibrillar blends were produced using an environmentally friendly and cost-effective process. Both of these qualities are essential in guarantying the viability of the proposed technique for overcoming the obstacles associated with the vast commercialization of PLA.

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Development of PLA/cellulosic fiber composite foams using injection molding: Crystallization and foaming behaviors

Ding

Jahani

Chang

et al. 2016

Composites Part A: Applied Science and Manufacturing

144

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Relationship between wood porosity, wood density and methyl methacrylate impregnation rate

Ding

Koubaa

Chaala

et al. 2008

Wood Material Science & Engineering

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Rheology, thermal properties, and foaming behavior of highd-content polylactic acid/cellulose nanofiber composites

et al. 2015

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WeiDan Ding

Poly(lactic acid)-Based in Situ Microfibrillar Composites with Enhanced Crystallization Kinetics, Mechanical Properties, Rheological Behavior, and Foaming Ability

Development of PLA/cellulosic fiber composite foams using injection molding: Crystallization and foaming behaviors

Relationship between wood porosity, wood density and methyl methacrylate impregnation rate

Rheology, thermal properties, and foaming behavior of highd-content polylactic acid/cellulose nanofiber composites

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