橡胶复合材料研究进展
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摘要
阐述橡胶复合材料研究进展。介绍了改性淀粉/炭黑型复合材料、氧化石墨烯型复合材料、碳纤维型复合材料、碳纳米管型复合材料、聚二烯橡胶复合材料、丁苯橡胶复合材料、丁基橡胶复合材料等的特点、结构、功能化方式及其应用。
引文
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[3]谢东,陈东城,古菊,等.固相法改性淀粉/炭黑/丁苯橡胶复合材料的制备与性能研究[J].弹性体,2013,23(6):1.
[4]Tang Z H,Wu X H,Guo B C.Preparation of Butadienestyrene-vinyl Pyridine Rubber-Grapheme Oxide Hybridsthrough Co-Congulation Process and in situ Interface Tailoring[J].J.Mater.Chem.,2012,22(15):7492-7501.
[5]Kang H,Zuo K,Wang Z,etal.Using a Green Method to Develop Graphene Oxide/Elastomers Nanocomposites with Combination of High Barrier and Mechanical Performance[J].Compos.Sci.Technol.,2014,92:1-8.
[6]Moghaddam S Z,Sabury S,Sharif F.Dispersion of rGO in Polymeric Matrices by Thermodynamically Favorable Selfassembly of GO at Oil-Water Interfaces[J].RSC.Adv.,2014,17(17):8711-8719.
[7]Mao Y Y,Wen S P,Chen Y,et al.High Performance Graphene Oxide Based Rubber Composites[J].Scientific Reports,2013,8:2508.
[8]陶慧,陈双俊,张军.碳纤维对顺丁橡胶导热性能的影响[J].橡胶工业,2012,59(5):265-269.
[9]陶慧,陈双俊,张军.碳纤维的表面改性对导热顺丁橡胶性能的影响[J].弹性体,2012,22(3):37-42.
[10]卢咏来,秘彤,刘力,等.碳纳米管/纳米氧化铝/天然橡胶复合材料的性能研究[J].橡胶科技,2014,12(7):14.
[11]王浩,邹陈,贺爱华.高反式-1,4-丁二烯一异戊二烯共聚橡胶的结构表征及其在轿车轮胎子口护胶中的应用研究[J].高分子学报,2015,(12):1387.
[12]王登祥,Ken Immel.绿色轮胎[J].轮胎工业,1999,19(4):195-199.
[13]张帅,赵素合,吴友平.相对分子质量及端基改性对炭黑补强星形溶聚丁苯橡胶性能的影响[J].橡胶工业,2015,62(3):140.
[14]孙工,何威.改性丁基橡胶[J].橡胶科技市场,2009,7(19):19-22.
[15]吴清洁,赵建青,贾德民.高性能轮胎胎面胶的研究进展[J].弹性体,2001,11(2):34-38.
[16]陈士朝.轮胎的性能要求与合成橡胶的发展[J].合成橡胶工业,1995,18(5):260-265.
[17]张玉红,江学良,孙刚,等.Gd_2O_3空心微球的制备及Gd_2O_3/丁基橡胶复合材料低频阻尼性能[J].复合材料学报,2016,33(1):84.
[2]Kikuchi N.Tires Made of Short Fiber Reinforced Rubber[J].Rubber World,1996,214(3):31-32.
[3]谢东,陈东城,古菊,等.固相法改性淀粉/炭黑/丁苯橡胶复合材料的制备与性能研究[J].弹性体,2013,23(6):1.
[4]Tang Z H,Wu X H,Guo B C.Preparation of Butadienestyrene-vinyl Pyridine Rubber-Grapheme Oxide Hybridsthrough Co-Congulation Process and in situ Interface Tailoring[J].J.Mater.Chem.,2012,22(15):7492-7501.
[5]Kang H,Zuo K,Wang Z,etal.Using a Green Method to Develop Graphene Oxide/Elastomers Nanocomposites with Combination of High Barrier and Mechanical Performance[J].Compos.Sci.Technol.,2014,92:1-8.
[6]Moghaddam S Z,Sabury S,Sharif F.Dispersion of rGO in Polymeric Matrices by Thermodynamically Favorable Selfassembly of GO at Oil-Water Interfaces[J].RSC.Adv.,2014,17(17):8711-8719.
[7]Mao Y Y,Wen S P,Chen Y,et al.High Performance Graphene Oxide Based Rubber Composites[J].Scientific Reports,2013,8:2508.
[8]陶慧,陈双俊,张军.碳纤维对顺丁橡胶导热性能的影响[J].橡胶工业,2012,59(5):265-269.
[9]陶慧,陈双俊,张军.碳纤维的表面改性对导热顺丁橡胶性能的影响[J].弹性体,2012,22(3):37-42.
[10]卢咏来,秘彤,刘力,等.碳纳米管/纳米氧化铝/天然橡胶复合材料的性能研究[J].橡胶科技,2014,12(7):14.
[11]王浩,邹陈,贺爱华.高反式-1,4-丁二烯一异戊二烯共聚橡胶的结构表征及其在轿车轮胎子口护胶中的应用研究[J].高分子学报,2015,(12):1387.
[12]王登祥,Ken Immel.绿色轮胎[J].轮胎工业,1999,19(4):195-199.
[13]张帅,赵素合,吴友平.相对分子质量及端基改性对炭黑补强星形溶聚丁苯橡胶性能的影响[J].橡胶工业,2015,62(3):140.
[14]孙工,何威.改性丁基橡胶[J].橡胶科技市场,2009,7(19):19-22.
[15]吴清洁,赵建青,贾德民.高性能轮胎胎面胶的研究进展[J].弹性体,2001,11(2):34-38.
[16]陈士朝.轮胎的性能要求与合成橡胶的发展[J].合成橡胶工业,1995,18(5):260-265.
[17]张玉红,江学良,孙刚,等.Gd_2O_3空心微球的制备及Gd_2O_3/丁基橡胶复合材料低频阻尼性能[J].复合材料学报,2016,33(1):84.