橡胶基质对橡胶/细菌纤维素晶须复合材料的水刺激-力响应性能的影响

分别选用丁苯橡胶(SBR)、天然橡胶和羧基丁腈橡胶作为基质,采用蒸发法将细菌纤维素晶须(BCWs)分别与3种橡胶胶乳混合,制备了橡胶/细菌纤维素晶须复合材料,研究了橡胶基质对复合材料吸水性能及水刺激-力响应性能的影响。结果表明,加入BCWs后,3种橡胶基质制备复合材料的吸水性能都得到增强,常温储能模量均明显下降,幅度可达到2个数量级。3种基质中以非极性橡胶SBR制备的SBR/BCWs的吸水性能和水刺激-力响应性能为最佳。...

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Bibliographic Details
Published in合成橡胶工业 Vol. 40; no. 1; p. 74
Main Author 殷标 王丽平 李耕 王冬妮 张佳佳 贾红兵
Format Journal Article
LanguageChinese
Published 南京理工大学连云港研究院,连云港222002%南京理工大学教育部软化学和功能材料重点实验室,南京,210094 2017
南京理工大学教育部软化学和功能材料重点实验室,南京210094
Subjects
吸水性能
复合材料
橡胶基质
水刺激-力响应
细菌纤维素晶须
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吸水性能
水刺激-力响应
橡胶基质
细菌纤维素晶须
复合材料
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ISSN1000-1255

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Summary:分别选用丁苯橡胶(SBR)、天然橡胶和羧基丁腈橡胶作为基质,采用蒸发法将细菌纤维素晶须(BCWs)分别与3种橡胶胶乳混合,制备了橡胶/细菌纤维素晶须复合材料,研究了橡胶基质对复合材料吸水性能及水刺激-力响应性能的影响。结果表明,加入BCWs后,3种橡胶基质制备复合材料的吸水性能都得到增强,常温储能模量均明显下降,幅度可达到2个数量级。3种基质中以非极性橡胶SBR制备的SBR/BCWs的吸水性能和水刺激-力响应性能为最佳。
Bibliography:Bacterial cellulose whiskers (BCWs) arc crystalline rod-like nano- fillers obtained from bacterial cellulose via acid hydrolysis. They are ideal nanoreinforcements owning to their renewable nature, low cost, high aspect ratio, high crystallinity, etc. In this study, stimuli-re- sponsive nanocomposites based on three kinds of matrixes, i.e. sty- rene-butadiene rubber (SBR) , natural rubber (NR) , carboxylated acrylonitrile-butadiene rubber (XNBR) , and 10 phr BCWs were pre- pared by evaporation method respectivelly.
YIN Biao1,2, WANG Li-ping1 , LI Geng1 , WANG Dong-ni1 , ZHANG Jia-jia1 , JIA Hong-bing1 (1. Key Laboratory for Soft chemistry and Functional Materials of Ministry of Education, Nanjing University of Science and Technology, Nanfing 210094, China; 2. Lianyungang Institute, Naafing University of Science and Technology, Lianyungang 222002, China)
62-1036/TQ
ISSN:1000-1255