Biodegradable Bovine Gelatin/Na+-Montmorillonite Nanocomposite Films. Structure, Barrier and Dynamic Mechanical Properties

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Biodegradable Bovine Gelatin/Na+-Montmorillonite Nanocomposite Films. Structure, Barrier and Dynamic Mechanical Properties

机译：可生物降解的牛明胶/ Na + -蒙脱土纳米复合薄膜。结构，屏障和动态力学性能

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Biodegradable films based on gelatin and Na+-Montmorillonite were prepared by mixing of gelatin solutions with ultrasonically pre-treated clay suspensions under controlled conditions. The DRX patterns and AFM images suggested that ultrasonication process resulted in homogeneously distributed layered silicates inside the matrix but not fully exfoliated. Transparency was retained, suggesting that filler is mostly distributed at the nanoscale. The results of DMA showed an improvement in storage modulus and shifts in tan Î´ peaks toward higher temperatures. The reduction in polar groups due to hydrogen interactions between gelatin and clay particles was evidenced by the decrease in surface hydrophilicity and WVP.

机译：通过在控制条件下将明胶溶液与超声预处理的粘土悬浮液混合，制备了基于明胶和Na + -蒙脱土的可生物降解薄膜。 DRX图案和AFM图像表明超声处理导致基质内部均匀分布的层状硅酸盐，但没有完全剥落。保留了透明性，表明填料主要分布在纳米级。 DMA的结果表明，储能模量有所提高，并且tanδ峰向更高温度移动。表面亲水性和WVP的降低证明了由于明胶和粘土颗粒之间的氢相互作用而导致的极性基团的减少。

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《Polymer-Plastics Technology and Engineering》 |2010年第6期|p.581-588|共8页
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Research Institute of Material Science and Technology (INTEMA), J. B. Justo, Mar del Plata, Argentina;

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Biodegradable Bovine Gelatin/Na+-Montmorillonite Nanocomposite Films. Structure, Barrier and Dynamic Mechanical Properties

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