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热塑性玉米淀粉基薄膜/纸复合材料的加工与性能研究,其中含有微晶纤维素。

Processing and characterization of thermoplastic corn starch-based film/paper composites containing microcrystalline cellulose.

机构信息

College of Environmental Engineering, Wuxi University, Wuxi, China.

Key Laboratory of Eco-Textiles, Ministry of Education, Jiangnan University, Wuxi, China.

出版信息

J Sci Food Agric. 2021 Dec;101(15):6443-6451. doi: 10.1002/jsfa.11315. Epub 2021 Sep 4.

DOI:10.1002/jsfa.11315
PMID:33990962
Abstract

BACKGROUND

Different thermoplastic starch (TPS) films were prepared with or without the addition of microcrystalline cellulose (MCC) obtained via the melt-extrusion method, and then the hot-press method was used to produce environmentally friendly TPS-based film/paper composites to replace petroleum-based materials.

RESULTS

The paper-plastic composites exhibited good interfacial adhesion from the scannign elctron microscopy images. It was seen that 5 wt.% MCC was added to reinforce the mechanical properties of TPS films, such that it also improved the barrier properties of MCC@TPS/paper composites and extended the path of water vapor through TPS films, which decreased the water vapor transmission rate of MCC@TPS/paper composites. TPS/paper composites and MCC@TPS/paper composites have better physical properties (i.e. smoothness, flexibility and folding resistance) than only paper. In particular, it was found that the water contact angle of MCC@TPS/paper composites and TPS/paper composites were higher than single-layer paper. Furthermore, MCC reinforced paper-plastic composites demonstrated good barrier properties which can meet the requirement of the need for lower water sensitive materials in the food packaging industry.

CONCLUSION

Thermoplastic corn starch-based film/paper composites have good application properties as a potential source of bioplastic materials. © 2021 Society of Chemical Industry.

摘要

背景

采用熔融挤出法制备了添加和不添加微晶纤维素(MCC)的不同热塑性淀粉(TPS)薄膜,然后采用热压法制备了基于 TPS 的环保薄膜/纸复合材料,以替代石油基材料。

结果

从扫描电子显微镜图像可以看出,纸塑复合材料具有良好的界面结合力。结果表明,添加 5wt%的 MCC 可以增强 TPS 薄膜的力学性能,同时也提高了 MCC@TPS/纸复合材料的阻隔性能,并延长了水蒸气通过 TPS 薄膜的路径,从而降低了 MCC@TPS/纸复合材料的水蒸气透过率。TPS/纸复合材料和 MCC@TPS/纸复合材料的物理性能(如平滑度、柔韧性和抗折叠性)均优于单层纸。特别是发现 MCC@TPS/纸复合材料和 TPS/纸复合材料的水接触角均高于单层纸。此外,MCC 增强的纸塑复合材料具有良好的阻隔性能,可以满足食品包装行业对低水分敏感材料的需求。

结论

热塑性玉米淀粉基薄膜/纸复合材料具有良好的应用性能,是一种有潜力的生物塑料材料来源。© 2021 英国化学学会。

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