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ELECTRORHEOLOGICAL PROPERTIES OF BIODEGRADABLE CHITOSAN/EXPANDED PERLITE COMPOSITES

Year 2016, Volume: 3 Issue: 3, 119 - 130, 08.01.2017
https://doi.org/10.18596/jotcsa.26894

Abstract

In this study, chitosan (CS)/expanded perlite (EP) composites with different chitosan fractions (10%, 20% and 50%) were prepared by absorbing chitosan into porous networks of expanded perlite, as a new hybrid smart electrorheological (ER) material. Structural and morphological characterizations of the composites were carried out by FTIR and SEM-EDS techniques. Also, apparent density, particle size, and conductivity of the CS/EP composites were determined. Finally, the effects of electric field strength (E), shear rate, shear stress, and temperature onto ER behavior of the CS/EP/silicone oil system were investigated. The CS/EP/SO ER fluid system showed reversible electrorheological activity when subjected to external electric field strength by showing shear thinning non-Newtonian viscoelastic behavior. The yield stress value reached to 1250 Pa under E = 3 kV/mm for CS/EP3 composite. 

References

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Year 2016, Volume: 3 Issue: 3, 119 - 130, 08.01.2017
https://doi.org/10.18596/jotcsa.26894

Abstract

References

  • Lin, KF, Hsu CY, Huang TS, Chiu WY, Lee YH, Young TH. A novel method to prepare chitosan/montmorillonite nanocomposites. Journal of Applied Polymer Science. 2005 SEP; 98: 2042-47. DOI: DOI: 10.1002/app.22401.
  • Zhang WL, Liu YD, Choi HJ, Kim SG. Electrorheology of Graphene Oxide. ACS Appl. Mater. Inter. 2012 APR; 4: 2267-72. DOI: 10.1021/am300267f.
  • Cabuk M, Yavuz M, Unal HI. Colloidal, electrorheological, and viscoelastic properties of polypyrrole-graft-chitosan biodegradable copolymer. J. Intel. Mat. Syst. Str. 2015 MAR; 26: 1799-810. DOI: 0.1177/1045389X15577652.
  • Kittur FS, Prashanth KVH, Sankar KU, Tharanathan RN. Characterization of chitin, chitosan and their carboxymethyl derivatives by differential scanning calorimetry. Carbohydrate Polymers. 2002 APR; 49: 185-93. DOI: doi:10.1016/S0144-8617(01)00320-4.
  • Hong CH, Sung JH, Choi HJ. Effects of medium oil on electroresponsive characteristics of chitosan suspensions. Colloid and Polymer Science. 2009 MAY; 287: 583-89. DOI: 10.1007/s00396-009-2006-3.
  • Jang WH, Cho YH, Kim JW, Choi HJ, Sohn JI, Jhon MS. Electrorheological fluids based on chitosan particles. Journal of Material Science Letters. 2001; 20: 1029-31. DOI: 10.1023/A:1010960424567.
  • Choi US, Park YS. Electrorheological behavior of chitosan adipicate suspension as anhydrous ER fluid. Journal of Industrial and Engineering Chemistry. 2001 JUL; 7: 281-4. DOI:10.1016/j.polymer.2005.10.133.
  • Dogan M, Alkan M. Removal of methyl violet from aqueous solution by perlite. J. Colloid Interface Sci. 2003 OCT; 267: 32–41. DOI: doi:10.1016/S0021-9797(03)00579-4.
  • Dogan M, Alkan M. Some physicochemical properties of perlite as a adsorbent, Fresenius Environ. Bull. 2004 JAN; 13: 251–7.
  • Alkan M, Dogan M. Surface titrations of perlite suspensions, J. Colloid Interface Sci. 1998 APR; 207: 90–6. DOI: 10.1006/jcis.1998.5694.
  • Tiwari A, Sen V. Dhakate SR, Mishra AP, Singh V. Synthesis, characterization, and hoping transport properties of HCl doped conducting biopolymer-co-polyaniline zwitterion hybrids. Polym. Advan. Technol. 2008 MAR; 19: 909-14. DOI: 10.1002/pat.1058.
  • Li H, Yunling J, Shuzhen M, Fuhui L. Synthesis and electrorheological property of chitosan phosphate and its rare earth complex. Journal of Rare Earths. 2007 JUN; 25: 15-9. DOI: 10.1016/S1002-0721(07)60514-6.
  • Marins, JA, Giulieri F, Soares BG, Bossis G. Hybrid polyaniline-coated sepiolite nanofibers for electrorheological fluid applications. Synth. Met. 2013 DEC; 185: 9-16. DOI: 10.1016/j.synthmet.2013.09.037.
  • Cho MS, Choi HJ, Jhon MS. Shear stress analysis of a semiconducting polymer based electrorheological fluid system. Polymer. 2005; 46: 11484–8. DOI: 10.1016/j.polymer.2005.10.029.
  • Cabuk M, Yavuz M, Unal HI, Erol O. Synthesis, characterization and investigation of electrorheological properties of biodegradable chitosan/bentonite nanocomposites. Clay Minerals. 2013 MAR; 48; 129-41. DOI: 10.1180/claymin.2013.048.4.09.
  • Koyuncu K, Unal HI, Gumus OY, Erol O, Sari B, Ergin T. Electrokinetic and electrorheological properties of poly(vinyl chloride)/polyindole conducting composites, Polym. Advanc. Technol. 2011 OCT; 23: 1464-72. DOI: 10.1002/pat.2068.
There are 16 citations in total.

Details

Journal Section Articles
Authors

Mehmet Çabuk

Publication Date January 8, 2017
Submission Date July 1, 2016
Published in Issue Year 2016 Volume: 3 Issue: 3

Cite

Vancouver Çabuk M. ELECTRORHEOLOGICAL PROPERTIES OF BIODEGRADABLE CHITOSAN/EXPANDED PERLITE COMPOSITES. JOTCSA. 2017;3(3):119-30.