Paper Titles

Evaluation of Residual Iron of Carbon Nanotubes Treated by Acid
p.277

The Research on Deep and Narrow Groove Grinded by Diamond Wheel
p.281

Effect of Pulsed Electric Current on the Tensile Properties of DP Type Ultra-High Strength Steel Sheets
p.284

Dynamic Fracture Toughness: Critical Review of Materials and Developments
p.289

Performance Enhancement and Applications of Ionic Polymer Metal Composites (IPMC) - A Review
p.298

Abrasive Granularity Impact on Water Jet Technology Head Vibrations during Cutting Steel
p.304

Study on Manufacturing Technology of High-Strength Composite Board
p.310

Application of Composite Materials in Children's Outdoor Playground
p.313

Study on Grinding Burn in High Efficiency Deep Grinding
p.318

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 389Performance Enhancement and Applications of Ionic...

Performance Enhancement and Applications of Ionic Polymer Metal Composites (IPMC) - A Review

Article Preview

Abstract:

This paper presents an overview of ionic polymer metal composites (IPMC), various properties improving techniques employed in the last decade and its potential applications. IPMC consists of a polymer membrane sandwiched by metal electrodes. On application of a small voltage, it bends towards anode. Due to its low activation voltage requirement (1-3V), low weight, high flexibility and ability to take any shape, IPMC has attracted the attention of researchers whose current aim include enhancing the force output to make them applicable for use in industrial, underwater SONARS, energy harvesting and biomedical fields. This paper provides an overview of the efforts made by the research community over the last decade, the identified applications with the references for elaborated study.

You might also be interested in these eBooks

Materials Technologies, Automation Systems and Information Technologies in Industry

Info:

Periodical:

Applied Mechanics and Materials (Volume 389)

Pages:

298-303

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.389.298

Citation:

Cite this paper

Online since:

August 2013

Authors:

Muhammad Farid, Zhao Gang, Yu Min Zhu, Ashleigh Chatto, Raja Ahsan Javed

Keywords:

Applied Voltage, Back Relaxation, EAP, IPMC, Tip Bending, Water Leakage

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] M. Shahinpoor and kim stacks. iop. org/SMS/14/1972004.

[2] S.M. Nasser and J. Y. Li, Appl. Phys. V. 87, P. 3321–31.

[3] M. Shahinpoor, Y. B. Cohen, J. O. Simpson, 1998, Smart Mater. Struct. V. 7, P. 15–30.

[4] Y. B. Cohen, S. Leary et al., 2000 Smart Struct. Mater Symp.; Proc. SPIE 3987, p.140–6.

[5] M. Shahinpoor, SPIE Smart Materials & MEMS Publication No. 4234-40, 2000, pp.450-459.

[6] H. Takenaka et al., International Journal of Hydrogen Energy, v. 7, pp.397-403, (1982).

[7] P. Millet et al., Journal of Applied Electrochemistry, v. 19, pp.162-166, (1989).

[8] S. N. Nasser and Y.X. Wu, 2003, J. Appl. Phys. V. 93, p.5255–67.

[9] .

[9] Z. Lu et al., 2009, J. Phys. Chem. B, v. 113, p.13551–9.

[10] K. Oguro et al., 1999, Smart Struct. Mater Symp, Proc. SPIE 3669, P. 64–71.

[11] S.N. Nasser S and Y. X. Wu, 2003 J. Appl. Phys, V. 93(52), P. 55–67.

[12] Z. Lu, M. Lanagan, E. Manias and D.D. Macdonald, 2009, J. Phys. Chem. B 113 13551–9.

[13] H. Takenaka et al, 1982, Int. J. Hydrogen Energy, v. 7, p.397–403.

[14] N. Fujiwara et al, Japanese Patent Specification, 9-87882, (1997).

[15] K. Onishi et al, 2000, Electrochim. Acta, v. 46, p.737–43.

[16] M. Shahinpoor and K. J. Kim, Smart Materials and Structures, v. 10, pp.819-833, (2001).

[17] M. Yu, H. Shen, Z.D. Dai, Journal of Bionic Engineering, 2007, Vol. 4 (3).

[18] M. Shahinpoor, Kim, J. Kwang, Smart Materials and Structures, v. 9(4), pp.543-551, (2000).

[19] T. G. Noh et al, Proc. of SPIE, Inter. Society for Optical Engg, v. 43(29), pp.458-465, (2001).

[20] G. Y. Lee et al, 2011, Online at stacks. iop. org/SMS/20/105026.

[21] J. K. Kwang, M. Shahinpoor, www. elsevier. com/locate/polymer, v. 43 (2002), p.797.

[22] J. Barbar et al, J Mater Sci, 2007, v. 42, p.7031–7041.

[23] Bonomo, Source: Smart Materials and Structures, v. 19(5), (2010).

[24] D Pugal et al., Proc. of SPIE - The Intern. Society for Optical Engineering, v. 7642, (2010).

[25] He et al, Journal of Functional Materials, v. 42, SUPPL. JUNE, pp.529-532, June (2011).

[26] Bian, et al Fuhe Cailiao Xuebao/Acta Materiae Compositae Sinica, v. 29(4), pp.47-55, (2012).

[27] T. G. Noh, Proc. of SPIE – Intern. Society for Optical Engineering, v 4329, pp.458-465, (2001).

[28] T. G. Noh et al, Electrochemical Acta, v. 47(13-14), pp.2341-2346, May 25, (2002).

[29] Kim, J. Kwang, M. Shahinpoor, Smart Materials and Structures, v. 12(1), pp.65-79.

[30] Kim, J. Kwang, Material Science Forum, Volume 426(432), 2003, pp.2249-2254.

[31] Y. Min, S. H. Shen, Z.D. Dai, Journal of Bionic Engineering, 2007, Vol. 4 (3).

[32] Choi et al, Journal of Nanoscience and Nanotechnology, v. 8(10), pp.5385-5388, (2008).

[33] M. Shahinpoor, J. K. Kwang, Smart Materials and Structures, v. 9(4), pp.543-551.

[34] L. Soon-Gie et al, Inter. J. of Control, Automation, and Systems, vol. 4(6), pp.748-755, (2006).

[35] H. Qingsong et al, Proceedings of SPIE - The Inter. Society for Optical Engg, v 7642, (2010).

[36] M. Shahinpoor, J. K. Kim, Proceedings of SPIE - v 4329, pp.174-181, (2001).

[37] J.K. Kim, M. Shahinpoor (USA), www. elsevier. com/locate/sna A, 96 (2002) 125-132.

[38] C. K. Chung et al, www. elsevier. com/locate/snb 117 (2006), 367-375.

[39] D. S. Pandita et al, Proc. SPIE 6168, Smart Structures and Materials 2006, EAPAD, 616822.

[40] Kim., et al, Proc. of SPIE - Inter. Society for Optical Engg, v 7287, 2009, EAPAD.

[41] Zhu et al, Advanced Materials Research, v. 97(101), pp.1590-1594, (2010).

[42] Bian et al, Chinese Journal of Materials Research, v. 24(5), pp.520-524, October (2010).

[43] Kimet al, Smart Materials and Structures, v. 14(5), pp.889-894, October 1, (2005).

[44] N.K. Vinh, Y. Youngtai, www. elsevier. com/locate/snb 123, (2007), 183-190.

[45] D. Lijun et al, Proc. of the 2nd IEEE Intern. Conf. on Nano/Micro Engineered and Molecular Systems, pp.50-54, January 2007, Bangkok, Thailand.

[46] Park et al, Proc. SPIE v. 7287 (2009).

[47] Lee et al, Smart Materials and Structures, v. 19(6), (2010).

[48] Jin et al, Gongneng Cailiao/Journal of Functional Materials, v 39, n 11, pp.1933-1936, (2008).

[49] M. Shahinpoor, K. J, Kim, Proc of SPIE, Intern. Society for Opt Engg, v. 43(29), pp.164-173.

[50] Lee et al, Proc. of SPIE, The Intern. Society for Optical Engg, v. 57(59), pp.439-446, (2005).

[51] Nguyen et al, IECON Proc. Of (Industrial Electronics Conference), pp.4888-4893, (2006).

[52] Lee et al, Jour. of Intelligent Material Systems and Structures, v. 17 (6), pp.533-541, June (2006).

[53] Lee, Sangki; K.J., Kwang, Smart Materials and Structures, v. 15 (4), pp.1103-1109, Aug. (2006).

[54] Guo, Shuxiang, Shi, Li wei; Asaka, Kinji: Proc. of ICAL 2008, pp.2495-2500, (2008).

[55] Deole, Ujwal, R. Lumia, IECON Proc. of Industrial Electronics Conf, pp.2933-2938, (2006).

[56] Peng et al, Optics and Precision Engineering, v. 18(4), pp.899-905, April (2010).

[57] Peng et al, Journal of Vibration, Measurement and Diagnosis, v 30, n 4, pp.347-352, (2010).

[58] Feng, Guo-Hua; Chen, Ri-Hong, Proceedings of MEMS, pp.7-10, (2007).

[59] Fang et al, Source: Sensors and Actuators, A: Physical, v. 137 (2), pp.321-329, July 4, (2007).

[60] Wang, Jin; Sato, Hiroshi, Taya a, Minoru1: Proc of SPIE 7287, 2009, EAPAD.

[61] Choi et al Source: ASAIO Journal, v. 57(4), pp.286-292, July-August (2011).

[62] Wang et al, Hsi-An Tung Ta Hsueh/Journal of Xi'an Jiaotong Uni., v 46(5), pp.79-84, (2012).

[63] L.G. Soon et al, Intern. Jour. of Control, Automation, and Sys, vol. 4 (6), pp.748-755, (2006).

[64] Guo, Shuxiang, Shi, Liwei; Asaka, Kinji, Proc of ICAL 2008, pp.2495-2500, (2008).

[65] Cheng et al, Advanced Materials Research, v 150-151, pp.1301-1304, November 6, - 8, (2010).

[66] Barbar et al, Proc. of SPIE - The International Society for Optical Engineering, v. 79(76), (2011).

[67] A. S Ahmad; Tan, Xiaobo, Conference Proc. of IEEE ICRA, pp.2719-2724, (2011).

[68] Najem et al, SMASIS 2011, v. 2, pp.691-698, September (2011).

[69] Palmre et al, Source: Smart Materials and Structures, v. 22(1), January (2013).

[70] L. Guillaume, P. Emmanuel, pp.3914-3919 vol. 4 Proc of ICRA Seoul, Korea. May (2001).

[71] Z. Chen, T.I. Um, and H.B. Smith, Proc. of SPIE 7976 797637-1.

[72] Zheng Chen and T. Xiaobo EAPAD 2010. Proc. of SPIE Vol. 7642 76420X-1.

[73] L.S. Boyko, J. Rossiter, M. Toshiharu, Proc. of SPIE Vol. 7287 72872B-1.

[74] Byungkyu et al, Proc of ICRA, pp.2940-2945 vol. 3 September 14-19, 2003Taipei, Taiwan.

[75] Tiwari, R, K.J. Kim, Proc. of SPIE Vol. 7289 72891G-1, (2009).

[76] Tiwari et al, Materials Research Society Symposium Proceedings, v. 1129, pp.213-224, (2009).

[77] Tiwari, K.J. Kim Source: Smart Materials and Structures, v. 19 (6), (2010).