Propriedades físicas de filmes biodegradáveis à base de amido de mandioca, álcool polivinílico e montmorilonita

Faria, Fernando de Oliveira; Vercelheze, Ana Elisa Stefani; Mali, Suzana

doi:10.1590/s0100-40422012000300009

Cited by 19 publications

(6 citation statements)

References 11 publications

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“…The MMT powder presented an X-ray diffraction spectrum with several types of crystals; however the most relevant ones were observed for 2 = 7 ∘ and 20 ∘ (Figure 3(a)). Similar results were obtained by Faria et al [32] and Cyras et al [27] who also analyzed MMT samples and verified that the first peak occurred for 2 between 7 ∘ and 8 ∘ . The gelatin spectrum was typical of that protein presenting a predominant peak at 2 = 20 ∘ (Figure 3(b)).…”

Section: X-ray Diffractionsupporting

confidence: 88%

Biodegradable Films Based on Gelatin and Montmorillonite Produced by Spreading

Jorge

Alexandre

Flaker

et al. 2015

International Journal of Polymer Science

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The main objective of this research was to study the properties of gelatin-based nanocomposites reinforced with the montmorillonite (MMT). The gelatin-based nanocomposites were prepared with solutions of 5 g of gelatin/100 g of film-forming solution, 0–10 g of montmorillonite/100 g of gelatin, and 30 g of glycerol/100 g of gelatin and were stored for 7 days at 58% relative humidity or in silica gel, depending on the type of assay. The reinforcement of gelatin-based nanocomposites with montmorillonite increased their thickness and decreased the moisture content. Tensile strength and Young’s modulus increased revealing more resistant and rigid nanocomposites. The increase in MMT concentration slightly changed the X-ray diffraction spectra indicating some loss of crystallinity and reinforced films presented less homogeneous structures. The montmorillonite concentration had not a clear effect on the thermal properties and FTIR spectra of nanocomposites were very similar to separated compounds.

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Section: X-ray Diffractionsupporting

confidence: 88%

Biodegradable Films Based on Gelatin and Montmorillonite Produced by Spreading

Jorge

Alexandre

Flaker

et al. 2015

International Journal of Polymer Science

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“…[20] Use of biodegradable materials including polymer blends and composites is being assessed worldwide. [21][22][23][24][25][26][27][28][29][30][31][32][33][34] Table 1 shows a few examples of biodegradable polymers and the advantages and disadvantages commonly associated with their use. Of the biodegradable polymers considered, starch blends are produced in the largest quantities and they are followed by polylactic acid (PLA), polybutylene adipate terephthalate (PBAT), polybutylene succinate (PBS), polyhydroxyalkanoates (PHA) and other biodegradable materials as shown in Figure 2.…”

Section: Introductionmentioning

confidence: 99%

A review on degradation mechanisms of polylactic acid: Hydrolytic, photodegradative, microbial, and enzymatic degradation

Zaaba

Jaafar

2020

Polymer Engineering & Sci

322

206

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Recently, thoughtful disagreements between scientists concerning environmental issues including the use of renewable materials have enhanced universal awareness of the use of biodegradable materials. Polylactic acid (PLA) is one of the most promising biodegradable materials for commercially replacing nondegradable materials such as polyethylene terephthalate and polystyrene. The main advantages of PLA production over the conventional plastic materials is PLA can be produced from renewable resources such as corn or other carbohydrate sources. Besides, PLA provides adequate energy saving by consuming CO2 during production. Thus, we aim to highlight recent research involving the investigation of properties of PLA, its applications and the four types of potential PLA degradation mechanisms. In the first part of the article, a brief discussion of the problems surrounding use of conventional plastic is provided and examples of biodegradable polymers currently used are provided. Next, properties of PLA, and (Poly[L‐lactide]), (Poly[D‐lactide]) (PDLA) and (Poly[DL‐lactide]) and application of PLA in various industries such as in packaging, transportation, agriculture and the biomedical, textile and electronic industry are described. Behaviors of PLA subjected to hydrolytic, photodegradative, microbial and enzymatic degradation mechanisms are discussed in detail in the latter portion of the article.

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“…The Cloisite ® 30B and Cloisite ® 10A clays is natural MMT that undergo the organophilization process with quaternary ammonium salts MT2EtOH (methyl, tallow, bis-2-hydroxyethyl, quartenary ammonium) and 2MTBHT (dimethyl, benzyl, hydrogenatedtallow, quartenary ammonium), respectively. For example, Faria et al (2012) observed modifications in mechanical properties of biodegradable films-based on starch and polyvinyl alcohol added with sodium montmorrilonite (Closite ® Na + ).…”

Section: Introductionmentioning

confidence: 99%

Síntese De Compostos Híbridos Chalconasdihidropirimidinonas via Reação De Huisgen

Mass¹,

Russowsky²

2020

Atividades De Ensino E De Pesquisa Em Química 2

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Todo o conteúdo deste livro está licenciado sob uma Licença de Atribuição Creative Commons. Atribuição 4.0 Internacional (CC BY 4.0).O conteúdo dos artigos e seus dados em sua forma, correção e confiabilidade são de responsabilidade exclusiva dos autores. Permitido o download da obra e o compartilhamento desde que sejam atribuídos créditos aos autores, mas sem a possibilidade de alterá-la de nenhuma forma ou utilizá-la para fins comerciais.

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Propriedades físicas de filmes biodegradáveis à base de amido de mandioca, álcool polivinílico e montmorilonita

Cited by 19 publications

References 11 publications

Biodegradable Films Based on Gelatin and Montmorillonite Produced by Spreading

Biodegradable Films Based on Gelatin and Montmorillonite Produced by Spreading

A review on degradation mechanisms of polylactic acid: Hydrolytic, photodegradative, microbial, and enzymatic degradation

Síntese De Compostos Híbridos Chalconasdihidropirimidinonas via Reação De Huisgen

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