将一种全氟磺酸树脂(Nafion)与多壁碳纳米管(MWCNTs)分别按质量比100∶1、100∶3、100∶5进行配比,采用溶剂浇铸法配合超声波分散法制备MWCNTs/Nafion型离子交换膜(IEM),在此基础上利用化学沉积法制备铂型离子聚合物金属复合材料(Pt-IPMC),考察三种MWCNTs负载量对IEM及Pt-IPMC性能的影响。采用SEM配合EDAX研究Pt的沉积效果,对IEM及Pt-IPMC试样进行拉伸测试,采用数字信号发生器为激励源测试Pt-IPMC的动态位移。结果表明:添加MWCNTs使Pt-IPMC的内、外电极厚度分别增加200%~250%和180%~200%,使IEM及Pt-IPMC的弹性模量分别提高57.92%~140.85%和9.06%~52.85%;MWCNTs有效修饰了Pt-IPMC的内电极,并明显提升其动态位移量、动态响应及变形速度。
A kind of multi-walled carbon nanotubes(MWCNTs)/perfluorosulfonate resin(Nafion) ionic exchange membrane(IEM) was prepared with Nafion solution and MWCNTs by mass ratios of 100∶1,100∶3 and 100∶5 using solvent evaporation method and ultrasonic dispersion method.Based on the IEMs,Ionic exchange polymer metal composites with Pt as electrodes(Pt-IPMC) were manufactured by chemical deposit method.The influence of MWCNTs contents on IEM and Pt-IPMC performance was investigated.The effect of Pt deposit was measured with SEM and EDAX,mechanical properties of IEM and Pt-IPMC samples were studied by tension testing,and Pt-IPMC dynamic deformation was observed under different excitation signals.The experimental results reveal that,owing to the MWCNTs,thicknesses of inter-locked electrodes and surface electrodes are respectively increased by 200%~250% and 180%~200%,elastic moduli of IEM and Pt-IPMC are respectively increased by 57.92%~140.85% and 9.06%~52.85%,inter-locked electrodes of Pt-IPMC are effectively modified.The samples’ dynamic displacement,response and deforming velocity are enhanced.
参考文献
| [1] | Oguro K, Kawami Y, Takenaka H. Bending of an ion-conducting polymer film electrode composites by an electric stimulus at low voltage [J]. Journal of Micromachine Society, 1992(5):27-32. |
| [2] | Mojarrad Mehran, Shahinpoor M. Ion - exchange - metal composite artit'ieial muscle actuator load characterization and modeling [C]// Simmons Wilbur C, Aksay Ilhan A, Huston Dryver R. Smart Structure and Materials 1997:Smart Materials Technologies. San Diego, CA, USA: SPIE, 1997, 3040: 294-301 |
| [3] | Shahinpoor M, Kim Kwang J. Novel ionic polymer - metal composites equipped with physiccally loaded particulate electrodes as biomimetic sensors, actuators and artificial muscles [J]. Sensors and Actuators A, 2002, 96(2/3): 125-132. |
| [4] | Shahinpoor M, Kim Kwang J. Effects of counter ions on the performance of IPMCs [C] // Bar Cohen Yoseph. Smart Structures and Materials 2000. Newpot Beach, CA: SPIE, 2000, 3987:110-120 |
| [5] | Bar Cohen Y, Leary S, Shahinpoor M, Harrison J O, Smith J. Electro active polymer (EAP) actuators for planetary applications [ C] // Part of the SPIE Conference on Electroactive Polymer Actuators and Devices. Newport Beach, CA, USA: SPIE, 1999, 3669: 57-63 |
| [6] | Nemat-Nasser Sia, Li Jiangyu. Electromechanical response of ionic polymer- metal composites [J]. Journal of Applied Physics, 2000, 87(7): 61-68. |
| [7] | Shahinpoor M, Kim Kwang J. Design, development and testing of a multi fingered heart compression/assist device equipped with IPMC artificial muscles [C] // Bar Cohen Yoseph. Smart Polym SPIE, Structu ors and res and Materials 2001: Electroactive Devices. Newport Beach, CA, USA:2001, 4329:411 -420 |
| [8] | Shahinpoor M, Kim Kwang J. Ionic polymer - metal composites IV= Industrial and medical applications [J].Smart Materials and Structures, 2005, 14(1): 197-214. |
| [9] | Allaoui A, Bai S, Chen H M, Bai J B. Mechanical and electrical properties of a MWNT/epoxy composite [J]. Composites Science and Technology, 2002, 62 (15): 1993- 1998. |
| [10] | Kumar Satish, Doshi Harit, Srinivasarao Mohan, Park Jung O, Sehiraldi David A. Fibers from polypropylene/nano carbon fiber composites [J]. Polymer, 2002, 43(5): 1701-1703. |
| [11] | PotschkePetra, Dudkin Sergei M, Alig Ingo. Dielectric spectroscopy on melt processed poly carbonate multiwalled carbon nanotube composites [J]. Polymer, 2003, 44 (17) : 5023-5030. |
| [12] | Thostenson Erik T, Ren Zhifeng, Chou Tsu Wei. Advances in the science and technology of carbon nanotubes and their composites~ A review [ J ]. Composites Science and Technology, 2001, 61(13): 1899-1912. |
| [13] | Treacy M M J, Ebbesen T W, Gibson J M. Exceptionally high Young~s modulus observed for individual carbon nanotube [J]. Nature, 1996, 381: 678-680. |
| [14] | Biercuk M J, Llaguno M C, Radosavljevic M, Hyun J K, Johnson A T, Fischer J E. Carbon nanotube composites for thermal management [J]. Applied Phys cs Letters, 2002,80(15): 2767-2730. |
| [15] | Yu Min-Feng, Lourie Oleg, Dyer Mark J, Maloni Katerina, Kelly Thomas F, Ruoff Rodney S. Strength and breaking mechanism of multiwalled carbon nanotubes under tensile load [J]. Science, 2000, 287(5453): 637-640. |
| [16] | 肖杰,顾轶卓,李敏,张佐光.多壁碳纳米管改性环氧树脂胶黏剂实验研究[J].复合材料学报,2011,28(3):20-26. |
| [17] | 赵艳文,顾轶卓,李敏,张佐光.碳纳米管一玻璃纤维/环氧层板双真空灌注工艺及性能[J].复合材料学报,2011,28(3):13-19. |
| [18] | 肇研,段跃新,李蔚慰,梁振方.多壁碳纳米管复合材料在8mm波段的吸波性能[J].复合材料学报,2007,24(3):23-27. |
| [19] | 曹茂盛,高正娟,朱静.CNTs/polyester复合材料的微波吸收特性研究[J].材料工程,2003(2):34-36 |
| [20] | Cao Maosheng, Song Weili, Zhou Wei, Wang Dawei, Rong Jill, Yuan Jie, Agathopoulos Simeon. Dynamic compressive response and failure behavior of fiber polymer composites embedded with tetra needle- like ZnO nanowhiskers [J]. Composite Structures, 2010, 92(12): 2984-2991. |
| [21] | Cao Maosheng, Wang Dawei, Yuan Jie, Lin Haibo, Zhao Quanliang, Song Weili, Zhang Deqing. Enhanced piezoelectric and mechanical properties of ZnO whiskers and Sb2O3 co- modified lead zirconate titanate composites [J]. Materials Letters, 2010, 64(16): 1798-1801. |
| [22] | Lee Deuk Yong, Park Ⅱ Seok, Lee Myung Hyun, Kim Kwang J, Heo Seok. Ionic polymer - metal composite bending actuator loaded with multi- walled carbon nanotubes [J]. Sensors and Actuators A, 2007, 133(1): 117-127. |
| [23] | 卞侃,熊克,刘刚,陈骐,王帮峰.铂型离子聚合物金属复合材料的制备及驱动位移测试[J].复合材料学报,2011,28(3):115-120. |
| [24] | 中华人民共和国国家质量监督检验检疫总局.GB/T6673-2001《塑料薄膜和薄片长度和宽度的测定》[S].北京:中国标准出版社,2004 |
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