International Research journal of Management Science and Technology

  ISSN 2250 - 1959 (online) ISSN 2348 - 9367 (Print) New DOI : 10.32804/IRJMST

Impact Factor* - 6.2311


**Need Help in Content editing, Data Analysis.

Research Gateway

Adv For Editing Content

   No of Download : 55    Submit Your Rating     Cite This   Download        Certificate

NICKEL ION INDUCED ETHYLENE-CHLOROTRIFLUOROETHYLENE COPOLYMER

    1 Author(s):  KUSAM DEVGAN

Vol -  8, Issue- 8 ,         Page(s) : 112 - 116  (2017 ) DOI : https://doi.org/10.32804/IRJMST

Abstract

The nickel ion induced modifications undergoing in Ethylene- Chlorotrifluoroethylene (E-CTFE) copolymer films were examined with the applied doses. Samples of ethylene-chlorotrifluoroethylene were irradiated in vacuum at room temperature by nickel (120 MeV) ions with the fluence in

  1. T. Steckenreiter, E. Balanzat, H. Fuess, and C. Trautmann, “Chemical modifications of PET induced by swift heavy ions,” Nucl. Instrum. and Meth. B vol.131, pp.159-166, Aug.1997.
  2. G. H. Wang, G. Q. Pan, L. Dou, R. X. Yu, T. Zhang, S. G. Jiang, and Q. L. Dai, “Proton beam modification of isotactic polypropylene,”.Nucl. Instr. Meth. B, vol. 27, pp. 410-416, Jul. 1987.
  3. T. Steckenreiter, E. Balanzat, H. Fuess, and C. Trautmann, “Pyrolytic effects induced by energetic ions in polymers,” Nucl. Instr. Meth. B, vol. 151, pp. 161-168, May. 1999.
  4. D. Fink, W. H. Chung, and M. Wilhelm, “Damage of polyvinylalcohol by 16 MeV electrons,” Radiat. Effs. and Def. in Solids, vol.133, pp.  209-215, Aug. 1994.
  5. D. Sinha, and K. K, Dwivedi, “Modifications of radiation detection response of PADC track detectors by photons,” Radiation Physics and Chembtry, vol. 53, pp. 99-105, Aug. 1998.
  6. J. H. O'Donnell, “Chemistry of Radiation Degradation of Polymers,” Polymer Materials and Radiation,Group, Department of Chemistry, University of Queensland, Brisbane, Queensland, Australia 4072Radiation Effects on Polymers American Chemical Societ ACS Symposium Series, Vol. 475, Chapter 24, Nov. 1991, pp 402–413, 
  7. D. Fink, W.H. Chung, R. Klett,  A. Schmoidt, , J.  Cardosa, R. Montiel,  M.H.  Vazqez,  L Wang,   F. Hosoi,  H.Omichi, and P. Goppelt-Langer, “Carbonaceous clusters in irradiated polymers as revealed by UV-visible spectrometry,” Radiat. Eff. Def. Solids vol. 133, pp. 193–208, Aug. 2006.
  8. B. S. Elman, M. K. Thakur, D. J. Sandman, and M. A. Newkirk, “Ion implantation studies of polydiacetylene crystals.” J. Appl.Phys., vol. 57, pp. 4996-5005, Jan. 1985.
  9. D. Fink, M. Muller, L. T. Chadderton, P. H.  Cannington,  R. G.  Elliman, and D. C. McDonald, “Optically absorbing layers on ion beam modified polymers: A study of their evolution and properties,” Nucl. Instr. and Meth. B, vol. 32, pp. 125-130, May.1988.
  10. J. Davenas,  X. L. Xu, G. Boiteaux, and D.  Sage, “Relation between structure and electronic     properties of ion irradiated polymers,” Nucl. Instr. and Meth. B, vol. 39, pp.754-763, Mar. 1989.
  11. K. Yoshida, and M. Iwaki, “Structure and morphology of ion-implanted polyimide films,”
  12.  Nucl. Instr. and Meth. B,  vol. 19/20, pp. 878-881, 1987.
  13. R. Mishra,  S. P. Tripathy, D. Sinha, K. K. Dwivedi, S. Ghosh, D. T. Khathing, M. Miiller, D.  Fink, and W. H. Chung, “Optical and electrical properties of some electron and proton irradiated polymers,” Nucl. Instr. and Meth. B, vol. 168, pp. 59-64, May. 2000.
  14. J.F. Ziegler and J.P. Biersack SRIM-IBM Research, New York. 2008.
  15. O.B. Geiß, M.  Kramer and G.  Kraft, “Efficiency of thermo-luminescent detectors to heavy charged particles,” Nucl  Instrum and Methds in Phys Res B, vol. 142, pp. 592-598, Aug. 1998,
  16. K. Devgan, L. Singh and K. S. Samra “Structural modifications of swift heavy ion irradiated PEN probed by optical and thermal measurements,” Radia. Phys and Chem. vol. 88,  pp. 49-55, July 2013,

*Contents are provided by Authors of articles. Please contact us if you having any query.






Bank Details