Properties of poly(lactic acid) nanocomposites based on montmorillonite, sepiolite and zirconium phosphonate

Fukushima, Kikku; Fina, Alberto; Geobaldo, Francesco; Venturello, Alberto; Camino, Giovanni

doi:10.3144/expresspolymlett.2012.97

Cited by 74 publications

(31 citation statements)

References 39 publications

(70 reference statements)

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“…Moreover, there is no sensible effect of clay concentration on X-rays diffractograms either in the case of Cl20A or in that of Cl30B in the range of concentration of Table 3. As expected there are no traces of PLA crystalline structure both for PLA ( Figure 2) and for PLA nanocomposites based on clay nanoparticles, as already reported in literature for PLA/organically modified montmorillonite nanocomposites [19,[26][27][28]. These observations are in perfect agreement with the previously published data [5,19,[27][28][29] on similar materials.…”

Section: Results and Discussion 31 Morphologysupporting

confidence: 82%

Comparative study of filler influence on polylactide photooxidation

Bocchini¹,

Frache

2013

Express Polym. Lett.

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Abstract. Polylactide (PLA) based nanocomposites of organically modified montmorillonite and micro-talc based microcomposites were prepared with different compositions and were UV-light irradiated under artificial accelerated conditions representative of solar irradiation. The chemical modifications resulting from photo-oxidation were followed by infrared (IR) and ultraviolet (UV)-visible spectroscopies. The infrared analysis of PLA photooxidation shows the formation of a band at 1847 cm -1 due to the formation of anhydrides. The filler addition provokes an increase of anhydride formation rate dependent on filler nature, amount and dispersion degree on the matrix. The main factors that influence oxidation rate are the total extension of polymer/filler interfacial area and the presence of transition metal impurities of clays.

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Section: Results and Discussion 31 Morphologysupporting

confidence: 82%

Comparative study of filler influence on polylactide photooxidation

Bocchini¹,

Frache

2013

Express Polym. Lett.

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“…PLA has good mechanical properties, high strength and stiffness; however, it is considered as a brittle polymer with a strain at break around 3-5% and a notched and unnotched Charpy impact strength of around 3 and 23 kJ/m 2 respectively. Moreover, the very slow crystallisation of PLA [4][5][6][7][8] prevents it to be used in high temperature applications due its low glass transition temperature (Tg) around 50-55°C. Since PLA is a thermoplastic polymer, it can be processed by using conventional plastic processing equipments like injection moulding, extrusion, thermoforming, blow, sheet, or compression moulding [9] into products like cutleries, cups, flower pots, food containers, films, toothbrush handles or biomedical implants [10].…”

Section: Introductionmentioning

confidence: 99%

Investigation of injection moulded poly(lactic acid) reinforced with long basalt fibres

Tábi

Égerházi

Péter

et al. 2014

Composites Part A: Applied Science and Manufacturing

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In this paper long basalt fibre reinforced Poly(Lactic Acid) (PLA) composites were prepared and analysed. Continuous basalt roving was coated with PLA by using continuous extrusion coating technology and a special die. The continuous basalt roving coated with PLA was cut into 10 mm long pellets, which were injection moulded. The properties of the long fibre reinforced composites were compared to chopped (short) basalt fibre reinforced PLA composites produced by using the conventional dry mixing, extrusion and injection moulding method. The mechanical properties of the long basalt fibre reinforced PLA was found to be superior to short basalt fibre reinforced PLA. Fibre length analysis revealed that the remaining average fibre length highly increased, while electron microscopy demonstrated that there is very strong adhesion between the phases. Finally it was found that the long basalt fibres also have nucleating ability, however, not as efficient as short basalt fibres. 2 KeywordsMechanical properties (B), injection moulding (E), extrusion (E), Long basalt fibre composite (nominated new keyword) IntroductionIn the last decades renewable resource based and inherently biodegradable polymers got into the focus of interest and research, because it is believed that due to their exceptional properties, these polymers will replace some of the petrol based ones used nowadays [1,2]. These exceptional properties are that they can be fully synthesized from renewable resources and they can also be degraded biologically in compost conditions into water, carbon-dioxide and humus, which latter can be used for nutrition of the next generation of plants for renewable resource and thus biodegradable polymer production. According to these features the life cycle of biodegradable polymers can be fit into the life cycle of nature, so they can ensure sustainability in polymer recycling.By the fermentation of starch and sugar received both from renewable resources, lactic acid can be produced, which can be further processed by using ring opening polymerisation of the dimer of lactic acid called lactide into the promising biodegradable polymer currently, Poly(Lactic Acid) (PLA) [3]. PLA has good mechanical properties, high strength and stiffness; however, it is considered as a brittle polymer with a strain at break around 3-5% and a notched and unnotched Charpy impact strength of around 3 and 23 kJ/m 2 respectively. Moreover, the very slow crystallisation of PLA [4][5][6][7][8] prevents it to be used in high temperature applications due its low glass transition temperature (Tg) around 50-55°C. Since PLA is a thermoplastic polymer, it can be processed by using conventional plastic processing equipments like injection moulding, extrusion, thermoforming, blow, sheet, or compression moulding [9] into products like cutleries, cups, flower pots, food containers, films, toothbrush handles or biomedical implants [10].Although the high strength and stiffness of PLA suggest it to be used in engineering applications, nowadays most PLA produ...

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“…In the beginning, it was mainly used for medical applications due to its high fabrication costs but now PD,L-LA polymers have finally found a commercial application in single use disposal items due to its low price compared with other biodegradable polymers. However, its brittle nature reduces its use to very limited applications and its poor melt strength limits specific processes such as film blowing or foaming [1].…”

Section: Introductionmentioning

confidence: 99%

Sheets of branched poly(lactic acid) obtained by one step reactive extrusion calendering process: Melt rheology analysis

Cailloux¹,

Santana

Urquiza³

et al. 2013

Express Polym. Lett.

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Abstract. One-step reactive extrusion-calendering process (REX-Calendering) was used in order to obtain sheets of 1mm from two PD,L-LA extrusion grades modified with a styrene-acrylic multifunctional oligomeric agent. In a preliminary internal mixer study, torque versus time was monitored in order to determine chain extender ratios and reaction time. Once all parameters were optimized, reactive extrusion experiments were performed. Independently of the processing method employed, under the same processing conditions, PD,L-LA with the lower D enantiomer molar content revealed a higher reactivity towards the reactive agent, induced by its higher thermal sensitivity. REXCalendering process seemed to minimize the degradations reactions during processing, although a competition between degradation and chain extension/branching reactions took place in both processes. Finally, the rheological characterization revealed a higher degree of modification in the melt rheological behaviour for REX-Calendered samples.

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Properties of poly(lactic acid) nanocomposites based on montmorillonite, sepiolite and zirconium phosphonate

Cited by 74 publications

References 39 publications

Comparative study of filler influence on polylactide photooxidation

Comparative study of filler influence on polylactide photooxidation

Investigation of injection moulded poly(lactic acid) reinforced with long basalt fibres

Sheets of branched poly(lactic acid) obtained by one step reactive extrusion calendering process: Melt rheology analysis

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