Materials Reports 2022, Vol. 36 Issue (Z1): 21070279-8 |
POLYMERS AND POLYMER MATRIX COMPOSITES |
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Research Progress in Bio-based Degradable Packaging Thin Films |
WANG Xiuchao, QIN Yingying, GUO Hongge
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School of Light Industry Science and Engineering, Qilu University of Technology, Jinan 250353, China |
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Abstract The sources, uses, advantages, disadvantages and improvement methods of various bio-based films made from land and marine animals and plants are reviewed, providing theoretical basis for packaging (especially flexible food packaging) industry. Plant sources are mainly polylactic acid (PLA) film material and carrageenan, and animal sources are mainly gelatin. The source of raw materials, the use of the film and the reasons affecting the properties of the film are summarized from the aspects of blending modification, composite modification, cross-linking modification, surface coating treatment and double helix extrusion method. As a result, the above-mentioned bio-based films can be biodegradable, and their preparation and degradation will not pollute the environment, but their physical and chemical properties are poor, so they must be modified, and the various modification methods have both advantages and disadvantages. In conclusion, there are still deficiencies in the modification technology of bio-based film materials. A modification technology with simple equipment and low cost without sacrificing the biocompatibility of materials needs to be developed and improved.
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Published: 05 June 2022
Online: 2022-06-08
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Fund:International Cooperation Fund of Qilu University of Technology (Shandong Academy of Sciences) (QLUTGJHZ2018028). |
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1 何敏. 理论探索, 2018(6),17. 2 姚逸, 王超军, 欧阳春平,等. 广东化工,2021,48(17),75. 3 宁晓瑜. 直接熔融法合成聚乳酸及其共聚物的工艺研究.硕士学位论文,大连理工大学,2010. 4 陈佑宁, 樊国栋. 化工新型材料,2009,37(9),106. 5 李志勇, 沈贤德, 肖猱,等. 化工新型材料,2009,37(5),82. 6 吴启凡, 杨友斌, 孙正谦,等. 高分子通报,2016(3),69. 7 赵耀明, 汪朝阳, 麦杭珍. 华南理工大学学报(自然科学版),2002,30(11),155. 8 吴景梅, 吴若峰. 合成纤维工业,2006,29(1),14. 9 赵耀明, 张军, 麦杭珍. 合成纤维, 2001,30(3),3. 10 Yuan C, Xu X, Zhang Y,et al. Chinese Journal of Chemistry,2012,30(7),1474. 11 Bourissou D, Martin-Vaca B, Dumitrescu A,et al. Macromolecules,2009(38),9993. 12 王雅琪, 杨洋, 王柳迪,等. 功能高分子学报,2020,33(4),399. 13 张天骄, 安文豪, 金恒春,等. 弹性体,2008,18(2),30. 14 方林霞, 井强山, 陈强. 信阳师范学院学报(自然科学版),2008,21(2),246. 15 张磊, 王英. 橡塑技术与装备,2021,47(2),40. 16 云雪艳. 高韧性、高选择透过性聚乳酸薄膜的制备及其对果蔬的气调保鲜效果.博士学位论文,内蒙古农业大学,2017. 17 秦莹莹. 聚乳酸基纳米复合材料的制备及在食品包装的应用研究.硕士学位论文,齐鲁工业大学,2020. 18 肖沐航, 何娇, 贺光华. 赤峰学院学报(自然科学版),2016,32(1),57. 19 马喜峰. 化学工程师,2020,34(10),51. 20 姜爱菊. 剑麻纤维增强聚乳酸复合材料的制备及性能研究.博士学位论文,华南理工大学, 2012. 21 应启广, 陆颖, 章诚,等. 工程塑料应用,2016,44 (8),31. 22 甄卫军,王文涛,李进.高分子材料科学与工程,2015,31(4),152. 23 Yusoff R B, Takagi H, Nakagaito A N. Industrial Crops and Products, 2016, 94,562. 24 Yang Y, Zhang L, Zhu X,et al. Science China Chemistry,2016,59(11),1355. 25 Harte I, Birkinshaw C, Jones E,et al. Journal of Applied Polymer Science,2014,127(3),1997 26 张显勇, 王忠, 贾仕奎, 等.塑料, 2019(1),16. 27 Burgos N, Tolaguera D, Fiori S,et al. Journal of Polymers and the Environment,2014,22(2),227. 28 AvolioR, Castaldo R, Gentile G,et al. European Polymer Journal,2015,66,533. 29 Burgos N, Martino V P, Jiménez A. Polymer Degradation & Stability,2013, 98(2),651. 30 Wang Y, Qin Y, Zhang Y, et al. International Journal of Biological Macromolecules, 2014, 67,58. 31 Vijayarajan S, Selke S E M, Matuana L M. Macromolecular Materials & Engineering,2014,299(5),622. 32 赵永青, 陈福泉, 冯彦洪,等. 化工学报, 2014, 65(10),4197. 33 陈文婷, 李子芬, 彭少贤. 塑料,2019,48(3),94. 34 王艳色.石油化工,2018,47(10),1116. 35 薛斌.塑料科技, 2018,46(12),90. 36 Kang H,Hu X,Li M,et al. RSC Advances,2015,5,23498. 37 李明专, 胡孝迎, 何敏,等. 化工进展, 2019, 38(6),2880. 38 刘丽华, 查玉莹, 李友智,等. 塑料科技,2019,47(11),85. 39 班会涛, 吴莹莹, 巴晶. 河南科技,2020(9),97. 40 陈杰, 胡荣荣, 刘环宇,等. 塑料科技,2018,46(5),115. 41 Almgren K, Gamstedt K, Berthold F, et al. Polymer Composites, 2009, 30(12), 1809. 42 夏敏, 刘俊聪, 王丹勇,等. 工程塑料应用, 2014, 42(3), 122. 43 张荣飞. 纳米复合膜的制备及其对双孢蘑菇保鲜效果的研究.硕士学位论文,山东理工大学,2015. 44 杨亮, 房进信, 谢明珠,等.染整技术, 2021, 43(4),13. 45 颜田田, 戚勃, 杨贤庆,等. 食品与发酵工业,2019,45(23),97. 46 Qin Y Y, Yang J Y, Lu H B. International Journal of Biological Macromolecules, 2013, 61(10), 312. 47 林瑞君. 复配卡拉胶在改善火腿肠品质方面的应用研究.硕士学位论文,集美大学,2018. 48 张荣飞, 王相友. 中国食品学报,2019,19(7),184. 49 张抒爱, 郭芳, 周铭懿,等. 粮油食品科技,2021,29(3),118. 50 望运滔, 吴萌萌, 李少华,等. 食品工业,2020,41(5),206. 51 王存堂, 李子钰,等. 食品与发酵工业,2021(16),17. 52 张鑫雨. 卡拉胶/金属化合物对天然橡胶阻燃及力学性能影响的研究.硕士学位论文,沈阳化工大学,2020. 53 刘颖. 基于明胶的纳米材料制备及性能研究.博士学位论文,南京理工大学,2011. 54 曹娜, 符玉华, 贺军辉. 高分子通报,2007(8),1. 55 薛佳佳. 基于明胶的生物弹性体及生物医用膜材料的制备与性能研究.博士学位论文,北京化工大学,2015. 56 张琳琳. 鱼类明胶膜的制备与性能研究.硕士学位论文,集美大学,2016. 57 林俊杰, 周光宏, 何俊, 等. 核农学报,2019,33(11),2221. 58 邢振雷, 高颖, 田海龙,等. 江苏农业科学,2020,48(20),234. 59 Zhang L T,Jiang Z W,Gao L,et al. Food Research and Development,2020,41(6),106. 60 Jagannath J H, Nanjappa C, Das G D K, et al. Applied Polymer Science, 2013, 88,64. 61 Arvanitoyannis I, Nakayamab A, Aiba S, et al. Food Chemistry, 2017, 60(4),593. 62 Li B, Kennedy J F, Jiang Q G, et al. Food Research International, 2016,39(5), 544. 63 Huang Y,Onyeri S, Siewe M, et al. Biomaterials, 2015, 26, 7616. 64 Cheng M, Deng J, Yang F, et al. Biomaterials, 2013, 24, 2871. |
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