Hadi Almasi; Babak Ghanbarzadeh; Jalal Dehghan nia; Ali Akbar Entezami; Asghar Khosrowshahi Asl
Abstract
Fatty acid modified cellulose nanofibers (MCNFs) and TBHQ antioxidant were added to poly(lactic acid) (PLA) film. The combined effects of the MCNFs and TBHQ on the morphological, thermal, mechanical and barrier properties of PLA film were analyzed. The morphology of fracture surfaces evaluated by field ...
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Fatty acid modified cellulose nanofibers (MCNFs) and TBHQ antioxidant were added to poly(lactic acid) (PLA) film. The combined effects of the MCNFs and TBHQ on the morphological, thermal, mechanical and barrier properties of PLA film were analyzed. The morphology of fracture surfaces evaluated by field emission scanning electron microscopy (FE-SEM). XRD results showed that the crystallinity of the PLA film with added MCNFs was substantially higher than that of pure PLA and antioxidant active PLA films. Glass transition and melting temperatures changed with the addition of these two components. The addition of 3wt% of TBHQ to PLA films leads to a significant reduction (p
Nasrin Jamshidi; Babak Ghanbarzadeh; Jalal Dehghan nia; Mahood Sowti Khiabani; Ali Akbar Entezami
Abstract
Cellulose nanocrystal (CNC) is a type of nanomaterial which is produced by partial hydrolysis of cellulose and elimination of its amorphous regions. CNC has several advantages such biodegradability and safety toward human health. In this study, CNC was produced from cotton linters and methods such transmission ...
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Cellulose nanocrystal (CNC) is a type of nanomaterial which is produced by partial hydrolysis of cellulose and elimination of its amorphous regions. CNC has several advantages such biodegradability and safety toward human health. In this study, CNC was produced from cotton linters and methods such transmission electron microscopy which were used for confirmation of nanoscale size production of cellulose crystals. Due to the disadvantages of pure starch films, in the present research, for improving the properties of plasticized starch-PVOH films, from nanoparticles CNC and TiO2 are used together, then effects of nanoparticles and glycerol determined on physical properties by response surface methodology (RSM). CNC and GLY showed significant linear effects on ultimate tensile strength (UTS) of nanocomposit and there were significant interaction effects between TiO2 and CNC, and also between GLY and TiO2. The optimum levels of TiO2, CNC and GLY for obtaining maximum UTS were as 0.118, 0.6 g and 1.06 ml, respectively. In addition, the TiO2 concentration had linear and quadratic effect on the contact angles of bionanocomposites and optimum levels of TiO2, CNC and GLY for obtaining maximum contact angles were 0.112, 0.299 g and 1.06 ml, respectively. UV-visible spectroscopy studies in the wavelength range 200–800 nm showed that adding of CNC and TiO2 decrease the light transmission and increase the opacity, adding of glycerol increase the light transmission and decrease the opacity.
Leila Abolghasemi Fakhri; Babak Ghanbarzadeh; Jalal Dehghan nia; Ali Akbar Entezami
Abstract
The high hydrophilic property of biopolymer based plastics is one of the most important defects of them. Blending biopolymers with compatible synthetic polymers and using nano particles such as nanoclay as nanofiller are improving methods that have been extensively considered in recent years. Carboxymethyl ...
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The high hydrophilic property of biopolymer based plastics is one of the most important defects of them. Blending biopolymers with compatible synthetic polymers and using nano particles such as nanoclay as nanofiller are improving methods that have been extensively considered in recent years. Carboxymethyl cellulose (CMC) is one of the lowest cost biopolymers that have enormous applications in different industries and polyvinyl alcohol (PVA) is a synthetic polymer which has a high compatibility with biopolymers. In this research, CMC-PVA nanocomposites containing 3-10% Montmorillonite (W/W CMC) were prepared by casting method. The X-ray diffraction (XRD) results indicated the formation of an exfoliated nanostructure in all MMT content samples. Nanocomposites containing 10% MMT exhibited 29.06% reduction in water vapor permeability (WVP) compared to the blend film without nanoclay. Samples with 10% MMT, showed the lowest surface hydrophilisity (contact angle = 65.1o). The differential scanning calorimetry (DSC) results indicate that by increasing of MMT contents, the glass transition disappeared gradually and no glass transition was observed in the thermograms of the films containing 5, 7 and 10% MMT.
Babak Ghanbarzadeh; Ali Akbar Entezami
Abstract
The starch based films have some disadvantages such as weak mechanical and poor water barrier properties that restrict their applications in food packaging. In the present research, the polyvinyl alcohol (POVH), as a compatible polymer, and montmorillonite (MMT) nanoclay, as a nanofiller, were added ...
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The starch based films have some disadvantages such as weak mechanical and poor water barrier properties that restrict their applications in food packaging. In the present research, the polyvinyl alcohol (POVH), as a compatible polymer, and montmorillonite (MMT) nanoclay, as a nanofiller, were added to plasticized starch film (PS) to improve its properties and also to produce PS-MMT-PVOH nanocomposits with different MMT content (3,5,7%). The results of X-ray diffraction (XRD) villustrated that the nanostructure of investigated starch based nanocomposites films has an exfoliated structure which can be attributed to the good dispersing of filler in polymer matrix. DSC results showed that with adding MMT and increasing its content from 0 to 7%, melting point and Tg increased from 242ᵒC to 262ᵒC and 148ᵒC to 188ᵒC. The results of tensile test showed that addition of PVOH and MMT increased the ultimate tensile strength (UTS) and decreased the water vapor permeability (WVP) of nanocomposite films.