| POLYMERS AND POLYMER MATRIX COMPOSITES |
|
|
|
|
|
| Research Progress on Solvent Resistance of Polycarbonate |
| ZOU Zaiping1,2, WU Yuemei1, ZHAO Xiuli2
|
1 Applied Research Center of Advanced Composite Manufacturing Technology, Chengdu Aeronautic Polytechnic, Chengdu 610100, China
2 Institute of Chemical Materials, China Academy of Engineering Physics, Mianyang 621000, China |
|
|
|
Abstract Polycarbonate (PC) is a kind of general engineering plastics with excellent comprehensive properties. It has good impact resistance, electrical insulation, light transmittance, creep resistance and aging resistance. At present, PC has been widely used in aviation and automobile industry, building materials, medical and health care, household appliances and other fields. However, due to the loose molecular network and a large number of ester groups, PC has the disadvantage of poor solvent resistance, especially in the environment of organic solvent and alkaline solution, it is easy to occur swelling and stress cracking, which leads to product scrapping and hinders the further rapid development of PC.
At present, in view of the poor solvent resistance of PC, academia and industry have carried out extensive research. The structure of polymer material determines its performance, and its solvent resistance is closely related to the internal structure of the material. Therefore, the improvement of the solvent resistance of PC can be realized from the material structure through chemical or physical modification. In addition, from the perspective of practical product application, through the surface treatment of products or the application of transfer coating, it can avoid the direct contact between the internal materials of products and sensitive solvents, thus reducing the risk of PC solvent stress cracking. Although the relevant research has been fruitful, the mechanism of chemical or physical modification methods is still lack of systematic research. There are still some problems in the cost, aging and material subsequent processing of surface treatment methods. And the potential of solvent resistance of PC is expected to be further explored.
In view of few articles at home and abroad to summarize the solvent resistance of PC, the basic situation of solvent resistance of PC is briefly introduced. And the test methods of environmental stress cracking of polymer are introduced, too. Then, the ways of improving solvent resistance of PC and its products are summarized from three aspects: chemical modification, physical blending and surface treatment. Finally, the research status at home and abroad is summarized and prospected. It is pointed out that physical blending is the most effective method to prepare solvent-resistant PC at present. And the synergistic aging of solvents with environmental factors such as temperature and ultraviolet radiation should be further studied in the future.
|
|
Published: 12 March 2021
|
|
|
| Fund:Key Natural Science Projects of Sichuan Education Department (15ZA0342) and Chengdu Aeronautical Polytechnic’s Self-directed Natural Science Research Project (061838). |
| About author:: Zaiping Zou graduated from Dalian University of Technology in June 2013 with a bachelor’s degree in engineering. In June 2016, he obtained a master’s degree in engineering from the Chinese Academy of Enginee-ring Physics. He is now a teacher of Chengdu Aeronautical Polytechnic and Secretary of Applied Research Center of Advanced Composite Manufacturing Technology. At present, his main research fields are matrix modification and structural design of composite materials. He has published several papers in RSC Advances and Polymer Bulletin et al. He guide students to participate in the domestic and international composite bridge competition of SAMPE and has won many championships. |
|
|
1 Zhang X W, Wu N, Zhang X, et al. Journal of Materials Engineering,2017,45(11),30(in Chinese).
张晓雯,吴南,张旋,等.材料工程,2017,45(11),30.
2 Zhang L. Chemical Industry,2018,36(1),1(in Chinese).
张丽.化学工业,2018,36(1),1.
3 Huang K, Yao Q. Polymer Degradation and Stability,2015,113,86.
4 Shi G L, Li F S, Tian H B. Materials Review,2006(Z1),404(in Chinese).
史国力,李复生,田红兵.材料导报,2016(Z1),404.
5 Lewis P R. Engineering Failure Analysis,2009,16(6),1816.
6 Kjellander C K, Nielsen T B, Ghanbari-Siahkali A, et al. Polymer Degradation and Stability,2008,93(8),1486.
7 Yan C G. Study on environmental stress cracking behavior of transparent polycarbonate:the prior aging effect and surface coating protection. Ph.D. Thesis, Zhengzhou University, China,2017(in Chinese).
闫辰光.PC透明件的溶剂-应力开裂行为:环境老化影响与涂层防护研究.博士学位论文,郑州大学,2017.
8 Lewis P R. Engineering Failure Analysis,2009,16(6),1816.
9 Jansen J, Technimet S. In: Society of Plastics Engineers Annual Technical Conference. Boston,2005,pp.173.
10 Turnbull A, Maxwell A, Pillai S. Polymer Testing,2000,19(2),117.
11 Jansen J A. Advanced Materials & Processes,2004,162(6),50.
12 Li F S, Yin J Z, Wei D W, et al. Chemical Industry and Engineering Progress,2002,21(6),395(in Chinese).
李复生,殷金柱,魏东炜,等.化工进展,2002,21(6),395.
13 Gilbert M. Brydson’s Plastics Materials. Butterworth-Heinemann publications, UK,2016.
14 Saharudin M S, Atif R, Shyha I, et al. RSC Advances,2016,6(2),1076.
15 Silva P P J D O, Araújo P L, Da Silveira L B, et al. Radiation Physics and Chemistry,2017,130,123.
16 Zhong Y L, Zhang H F, Wang X L. Failire Analysis and Prevention,2012,7(3),172(in Chinese).
钟艳莉,张洪峰,王晓丽.失效分析与预防,2012,7(3),172.
17 Wright D C. Environmental stress cracking of plastics, iSmithers Rapra Publishing, UK,1996.
18 Robeson L M. Polymer Engineering & Science,2013,53(3),453.
19 Hopmann C, Borchmann N, Koch S, et al. Polymer Engineering & Science,2019,59(1),361.
20 Hough M, Wright D. Polymer Testing,1996,15(5),407.
21 Altstaedt V, Keiter S, Renner M, et al. Macromolecular Symposia,2004,214(1),31.
22 Choi B H, Weinhold J, Reuschle D, et al. Polymer Engineering & Science,2009,49(11),2085.
23 Cheng J J, Polak M A, Penlidis A. Tunnelling and Underground Space Technology,2011,26(4),582.
24 Jiang S L, Hua Y Q. China Plastics Industry,2011,39(5),82(in Chinese).
江盛玲,华幼卿.塑料工业,2011,39(5),82.
25 Hachiya H, Yoneda H, Matsuda Y, et al. Japanese Journal of Polymer Science and Technology,2000,57(1),15.
26 Woo B G, Choi K Y, Song K H. Industrial & engineering chemistry research,2001,40(5),1312.
27 Li J, Arnold J, Isaac D. Journal of materials science,1994,29(12),3095.
28 Jiajun L, Isaac D, Arnold J. Materials Science and Engineering: A,1996,214(1-2),68.
29 Han X, Hu Y, Tang M, et al. Polymer Chemistry,2016,7(21),3551.
30 Marks M, Sekinger J. Macromolecules,1994,27(15),4106.
31 Knauss D M, Yoon T H, Mcgrath J E. Polymer,2002,43(24),6415.
32 Zhang J L, Qu B H. China Plastics,2016,30(1),1(in Chinese).
章家立,瞿秉华.中国塑料,2016,30(1),1.
33 张希文,朱栋栋,胡衍平,等.中国专利,CN101654516,2010.
34 Brunelle D J, Krabbenhoft H O, Bonauto D K. Macromolecular Symposia,1994,77(1),117.
35 Liu Y, Ren W M, Wang M, et al. Angewandte Chemie International Edition,2015,54(7),2241.
36 Hopson P L. The effect of polymer blending on environmental stress crac-king resistance: Role of polycarbonate blend morphology, miscibility, and crystallinity. Ph.D. Thesis, The University of Southern Mississippi, USA,2005.
37 Robeson L M. Polymer blends: A Comprehensive Review, Hanser Publis-hers, Germany,2007.
38 Chen Z J, Wu S Z, Lu J R, et al. China Plastics Industry,2009,37(8),18(in Chinese).
陈振嘉,吴水珠,卢家荣,等.塑料工业,2009,37(8),18.
39 Qian Z G, Yi J L, Li Z M, et al. Engineering Plastics Application,2016,44(1),49(in Chinese).
钱志国,尹继磊,李正梅,等.工程塑料应用,2016,44(1),49.
40 Kambour R, Chu C, Avakian R. Journal of Polymer Science Part B: Polymer Physics,1986,24(9),2135.
41 Li W Q. Study on properties of PC/PBT alloy used for automotive. Master’s Thesis, Donghua University, China,2014(in Chinese).
李文强.汽车用PC/PBT合金材料性能的研究.硕士学位论文,东华大学,2014.
42 Lu J R, Wu S Z, Zhao J Q, et al. China Plastics Industry,2008,36(10),9(in Chinese).
卢家荣,吴水珠,赵建青,等.塑料工业,2008,36(10),9.
43 Yu C M, Wu S Z, Lu J R, et al. China Plastics,2009(8),13(in Chinese).
余昌敏,吴水珠,卢家荣,等.中国塑料,2009(8),13.
44 Song X Y, Wu S Z, Lu J R, et al. China Plastics Industry,2009,37(7),12(in Chinese).
宋湘怡,吴水珠,卢家荣,等.塑料工业,2009,37(7),12.
45 Manjunatha Nanjegowda L, Bommulu R, Juikar V, et al. Industrial & Engineering Chemistry Research,2013,52(16),5672.
46 Yang X M, Dai W L, Jiang N, et al. Plastics,2007,36(5),16(in Chinese).
杨晓明,戴文利,姜娜,等.塑料,2007,36(5),16.
47 Siripurapu S, Chakravorty A, Singh N. In: Antec-Conference Procee-dings. Hoboken: Society of Plastics Engineers,2007,pp.799.
48 Liu J W, Gao S J, Shen C H. China Plastics,2017,31(2),8(in Chinese).
刘俊威,高山俊,沈春晖.中国塑料,2017,31(2),8.
49 李紫薇.中国专利,CN103709712A.2014.
50 Zhou H J, Wang J F. Journal of North China Institute of Technology,2000,21(4),334(in Chinese).
周海骏,王久芬.华北工学院学报,2000,21(4),334.
51 Arnold J. Materials Science and Engineering: A,1995,197(1),119.
52 Wu J H. Surface modification of polycarbonate(PC) by low energy ion beam. Master’s Thesis, Hefei University of Technology, China,2008(in Chinese).
伍建华.PC(PC)透明材料的低能离子束表面改性研究.硕士学位论文,合肥工业大学,2008.
53 Wang S H, Liu J G, Lv M, et al. Opto-Electronic Engineering,2013,40(7),77(in Chinese).
王素焕,刘建国,吕铭,等.光电工程,2013,40(7),77.
54 Zheng Z L. Research of surface modification technique on polycarbonate(PC). Master’s Thesis, Hefei University of Technology, China,2013(in Chinese).
郑正龙.聚碳酸酯(PC)表面改性技术研究.硕士学位论文,合肥工业大学,2013.
55 Zhong Y L, Zhang X, Zhang H F. Modern Paint and Finishing,2012,15(6),9(in Chinese).
钟艳莉,张旋,张洪峰.现代涂料与涂装,2012,15(6),9.
56 Wang D Z. Shanghai Coatings,2000(4),29(in Chinese).
王德中.上海涂料,2000(4),29.
57 Jankowski P, Ogończyk D, Lisowski W, et al. Lab on a Chip,2012,12(14),2580.
58 Yan C, Zhang J, Han J, et al. Polymer Testing,2017,60,6.
59 Jakobs S, Schulz U, Duparré A, et al. Fresenius’ Journal of Analytical Chemistry,1997,358(1-2),242.
60 Chen T, Wuu D, Wu C, et al. Thin Solid Films,2006,514(1-2),188.
61 Jang M, Park C K, Lee N Y. Sensors and Actuators B: Chemical,2014,193,599.
62 Wang Y Z. Electroplating & Pollution control,2003,23(6),23(in Chinese).
王艳芝.电镀与环保,2003,23(6),23.
63 Zhou Q H. Study on fabrication of microdevices on polycarbonate sheets by UV-patterning in combination with silver activating. Master’s Thesis, Zhejiang University, China,2010(in Chinese).
周清华.PC表面紫外光照定位银催化化学镀制备金属微器件的研究.硕士学位论文,浙江大学,2010.
64 Tao Y L. China Plastics Industry,2014,42(4),120(in Chinese).
陶永亮.塑料工业,2014,42(4),120. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2021, Vol. 35 
