Biodegradable starch-based films containing saturated fatty acids: thermal, infrared and raman spectroscopic characterization

Nobrega, Marcelo M.; Olivato, Juliana Bonametti; Müller, Carmen Maria Olivera; Yamashita, Fábio

doi:10.1590/s0104-14282012005000068

Cited by 46 publications

(23 citation statements)

References 22 publications

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“…Bilck et al [22] found WVP values of 4.22 × 10 -6 g / m.Pa.day and Nobrega et al [15] found 8.07 × 10 -6 g / m.Pa.day, using a 33%-64% RH gradient across the film. Also Olivato et al [23] evaluated the WVP in films of starch/PBAT (50:50) using 0-75% as RH gradient and reported values of 5.4 × 10 -6 g /m.Pa.day for WVP.…”

Section: Water Vapour Permeability (Wvp)mentioning

confidence: 99%

“…This behaviour could be associated with the glycerol composition; the BDG had approximately 25% more glycerol than the others (Table 1), and, consequently, had proportionally more plasticiser that created its higher hygroscopic surface. Other researchers reported that starch-based films had increased hygroscopic characteristics with increased glycerol concentrations and associated this process with an increase in hydroxyl groups available to make hydrogen bonds with water [4,[13][14][15] . Białopiotrowicz [26] examined the contact angle in corn and potato starch films at different concentrations (2, 4, 6, 8, 10 and 12%wt) for different liquids (water, glycerol, formamide, ethylene glycol and diiodomethane poly(methyl methacrylate)) and reported that the contact angles decreased linearly with increasing starch concentration.…”

Section: Contact Anglementioning

confidence: 99%

“…The film was manufactured using a formulation based in our previous results [13][14][15] by mixing 40.0%wt PBAT, 46.6%wt cassava starch and 13.4%wt glycerol of three different types (Table 1). This mixture was extruded, pelleted and the resulting blend pellets were extruded twice and then processed to form a film by blow extrusion.…”

Section: Film Productionmentioning

confidence: 99%

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Using glycerol produced from biodiesel as a plasticiser in extruded biodegradable films

et al. 2015

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SbstractThe demand for renewably sourced biodegradable materials has increased the need to produce materials that combine appropriate functional properties at competitive costs. Thermoplastic starch and polyester blends are an interesting alternative to current materials due to the low cost of starch and the functional properties and processability of the resulting blends. Producing thermoplastic starch (TPS) requires using a plasticiser at concentrations between 20 and 30%wt (in relation to starch). Glycerol is the most common plasticiser due to its high plasticising capacity and thermal stability at processing temperatures. The objective of this study was to evaluate glycerol waste from the biodiesel industry, with different degrees of purification, as plasticisers for TPS / poly (butylene adipate-co-terephthalate) (PBAT) blends. Different purities of glycerol produced films with similar mechanical, optical and barrier properties to those made with purified glycerol (99.7%). Therefore, crude glycerol is a renewable alternative plasticiser that reduces the cost of plasticisation by 6-fold.

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Section: Water Vapour Permeability (Wvp)mentioning

confidence: 99%

Section: Contact Anglementioning

confidence: 99%

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Using glycerol produced from biodiesel as a plasticiser in extruded biodegradable films

et al. 2015

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“…algunos picos característicos de Alm y AE, pero la intensidad de estos es diferente. La señal de los grupos OH de las muestras Alm-AE, es menor que la del Alm, la señal de C=O (grupos ácidos) de las muestras Alm-AE es de menor intensidad que la del AE, además aparece un poco desplazada (1713 cm -1 ); esta señal ha sido asignada a carbonilo de esteres y ácidos en mezclas de ácido esteárico, glicerol, Alm y poli(adipato de butileno-co-tereftalato) [13]. La señal debida a la flexión de los grupos OH que exhibió el Alm a 1643 cm -1 , presentó una disminución en las muestras de Alm-AE.…”

Section: Resultados Y Análisisunclassified

Influencia de la proporción de ácido esteárico en las propiedades de almidón modificado con ácido esteárico

Murillo

2017

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Antecedentes: Usualmente se han realizado modificaciones de almidón (Alm) con ácido esteárico (AE) en solución y empleando como catalizador persulfato de potasio. Objetivo: En este estudio se evaluó la influencia de la proporción de AE en las propiedades estructurales, térmicas, reológicas y morfológicas de muestras de Alm-AE obtenidas empleando el ácido p-toluensulfónico (p-TAS) como catalizador. Metodología: Las muestras de Alm-AE fueron preparadas usando un reómetro de torque. Las respectivas cantidades de Alm, AE y p-TAS (4 %), fueron llevadas al reómetro y mantenidas a 100 °C y una velocidad de agitación de 50 rpm. En todos los casos el tiempo de mezclado fue de 20 min. Las relaciones en peso de Alm:AE empleadas para obtener los materiales, fueron las siguientes: 70:30 (AE30), 60:40 (AE40) y 50:50 (AE50). Resultados: Se observó que después del incremento en el torque debido a la fusión del AE, se presentó otro aumento en éste, lo cual se atribuyó a la reacción de esterificación entre el Alm y el AE. El grado de esterificación incrementó con la cantidad de AE empleada en la preparación de los materiales. La modificación del Alm con el AE, causó una apreciable reducción de la cristalinidad de las muestras de Alm-AE. La muestra AE40, mostró el mayor comportamiento elástico. La muestra AE30 presentó el comportamiento más viscoso. Conclusión: Este estudio permitió obtener muestras de Alm-AE por un proceso en fundido y sin el uso de solventes orgánicos. La modificación del Alm con el AE, afecta las propiedades estructurales, térmicas y morfológicas de Alm.Palabras clave: Almidón, ácido esteárico, propiedades. AbstractBackground: usually have been realized modifications of starch (Alm) with stearic acid (AE) in solution and by employing as catalyzer potassium persulfate. Objective: In this study was evaluated the influence of the proportion of AE on the structural, thermal, rheological and morphological properties of the samples Alm-AE obtained employing p-toluenesulfonic acid as catalyzer. Methods: the samples Alm-AE were prepared by using a torque rheometer trade mark Thermo Scientific. The respective amounts of Alm, AE and p-TAS (4 wt%), were carried out to the rheometer and kept at 100 °C and to stirring rate of 50 rpm. In all cases the mix time was 20 min. The weight ratio ofAlm-AE employed for obtaining the materials were the following: 70:30 (AE30), 60:40 (AE40) y 50:50 (AE50). Results: It was observed that after of the increasing on torque due to melting of AE, was presented another enhance in this, which was attributed to the esterification reaction between Alm and AE. Esterification degree increased with the AE amount employed in the preparation of the materials. The modification of the Alm with AE, caused an appreciable reduction of the crytallinity of the samples Alm-AE. The sample AE40, showed highest elastic behavior. The sample AE30 presented highest viscous behavior. Conclusions: this study allowed to obtain samples of Alm-AE by a molten process without use of organic solvents. The modification of Alm with AE, affect the structural, thermal and morphological properties of the Alm.Keywords: starch, stearic acid, properties.

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“…This trend is noticed in polymers based on starch as well. The raising of glycerol content increases the hydrophilicity of these films, which might be related with the OH functional groups of the glycerol [30][31][32][33] . Figure 5 presents the images of scanning electron microscopy of the polymers with hydrophobic characteristics on the fracture surface of the TPS samples, according to Table 6.…”

Section: Starch Modified With Silicamentioning

confidence: 99%

Influence of addition of silanized nanosilica and glycerol on hydrophobicity of starch using a factorial design

et al. 2017

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ObstractThe thermoplastic starch (TPS) is regarded as a promising material for manufacturing packaging and products with biodegradable properties. This study aimed at obtaining hydrophobic starch using silanized silica nanoparticles (nSS) with hexamethyldisilazane. A factorial design 2 2 with central point was developed to evaluate the influence of glycerol (plasticizer) and nSS addition on the properties of water absorption, solubility and TPS contact angle. The materials morphology was also evaluated by means of scanning electron microscopy. The amount of glycerol and nSS influenced on starch hydrophobic character, for the increase of the glycerol dosage contributed to the increase of absorption and solubility of TPS in water. On the other hand, nSS has greater influence on the characteristics related to the TPS surface, favoring an increase of up to 27% in the contact angle values. Therefore, the sample with the greatest hydrophobic character was obtained by using lowest amounts of glycerol (30%) and highest amounts of nSS (5%).

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Biodegradable starch-based films containing saturated fatty acids: thermal, infrared and raman spectroscopic characterization

Cited by 46 publications

References 22 publications

Using glycerol produced from biodiesel as a plasticiser in extruded biodegradable films

Using glycerol produced from biodiesel as a plasticiser in extruded biodegradable films

Influencia de la proporción de ácido esteárico en las propiedades de almidón modificado con ácido esteárico

Influence of addition of silanized nanosilica and glycerol on hydrophobicity of starch using a factorial design

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