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International Journal of Polymer Analysis and Characterization Volume 19, 2014 - Issue 1
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Original Articles

Role of Divalent Metals in Polymer Degradation

M. W. RahmanDepartment of Chemical Engineering, Jessore Science and Technology University, Jessore, BangladeshView further author information
,
M. J. AlamDepartment of Chemical Engineering, Jessore Science and Technology University, Jessore, BangladeshView further author information
,
M. M. HossainDepartment of Dyeing and Washing, Purbani Yarn Dyeing Ltd., Dhaka, BangladeshView further author information
,
N. C. DafaderNuclear and Radiation Chemistry Division, Institute of Nuclear Science and Technology Atomic Energy Research Establishment, Savar, Dhaka, BangladeshView further author information
&
M. E. HaqueNuclear and Radiation Chemistry Division, Institute of Nuclear Science and Technology Atomic Energy Research Establishment, Savar, Dhaka, BangladeshView further author information
Pages 39-47 | Received 08 Sep 2013, Accepted 25 Sep 2013, Published online: 14 Feb 2014

REFERENCES

  • Pickiclna, M. M., 1999. Polymer composites containing chitosan and starch as biodegradable fillers, Polimery 44 (1999), pp. 24–29.
  • Garnett, J. L., and Jankiewiez, S. V., 1981. Acid effects in radiation polymerisation and grafting reactions, Radiat. Phys. Chem. 18 (1981), pp. 469–577.
  • Grushevskaya, L. N., Aliev, R. E., and Kabanov, V. Y., 1990. Radiation-induced graft polymerization of acrylamide and acrylic acid onto polyethylene, Radiat. Phys. Chem. 36 (1990), pp. 475–479.
  • Osawa, Z., 1988. Role of metals and metal-deactivators in polymer degradation, Polym. Degradation Stab. 20 (1988), pp. 203–236.
  • Rodrigues, J. F., 1998. Effect of divalent metal ions on the viscosity of natural rubber from Manihot glaziovii, J. Rubber Res. 1 (4) (1998), pp. 240–252.
  • Seentrakoon, B., Junhasavasdikul, B., and Chavasiri, W., 2013. Enhanced UV-protection and antibacterial properties of natural rubber/rutile-TiO2 nanocomposites, Polym. Degradation Stab. 98 (2013), pp. 566–578.
  • Kongkaew, C., Pattanawanidchai, S., Chaikumpollert, O., and Loykulnant, S., 2012. Factors affecting creaming efficiency of bio-based polymers, vulcanization and mechanical properties of creamed skim rubber, Biomass Bioenergy 46 (2012), pp. 233–241.
  • Liu, C.-P., Wang, M.-K., Xie, J.-C., Zhang, W.-X., and Tong, Q.-S., 2013. Mechanochemical degradation of the crosslinked and foamed EVA multicomponent and multiphase waste material for resource application, Polym. Degradation Stab. 98 (2013), pp. 1963–1971.
  • Rahman, M. W., Hossain, M. M., Alam, M. J., Dafader, N. C., and Haque, M. E., 2013. Addition of transition metals to improve physico-mechanical properties of radiation-vulcanized natural rubber latex films, Int. J. Polym. Anal. Charact. 18 (7) (2013), pp. 479–487.
  • Haque, M. E., Dafader, N. C., and Akhtar, F.Ahmad, M. U., , 1996. Radiation dose required for the vulcanisation of natural rubber latex, Radiat. Phys. Chem. 48 (1996), pp. 505–510.
  • Mahfuza, S. S., Haque, M. E., Dafader, N. C., Akhtar, F., and Ahmad, M. U., 1996. Improvement of physical properties of radiation vulcanised natural rubber latex film, Macromol. Rep. A 33 (Suppl. 3–4) (1996), pp. 175–185.
  • Flory, P. J., and Rehner, J., 1943. Statistical mechanics of cross-linked polymer networks II. Swelling, J. Chem. Phys. 11 (1943), pp. 521–526.
  • Puig, R. J., 1971. Radiation curing of natural rubber latex, At. Energy Rev. (France) 9 (1971), pp. 373–397.
  • Chyagrit, S. U., Makuuchi, K., and Ishigaki, I., 1990. "Radiation vulcanisation mechanism of liquid isoprene with 2-ethylhexyl acrylate". In: Machi, S., , ed. In Proceedings of the International Symposium on Radiation Vulcanisation of Rubber Latex. Tokyo: Japan Atomic Energy Research Institute; 1990. pp. 89–228.
  • Sabharwal, S., Bhardwaj, Y. K., Chaudhari, C. V., Dhanawade, B. R., and Majali, A. B., 1992. "Radiation chemical aspects of RVNRL technology". In: In Proceedings of the Seminar on Radiation Vulcanisation of Natural Rubber Latex, Kottayam, India, 26th June. Atomic Energy Regulatory Board; 1992. pp. 30–36.
  • Sabharwal, S., Das, T. N., Chaudhari, C. V., Bhardwaj, Y. K., and Majali, A. B., 1998. Mechanism of n-butyl acrylate sensitisation action in radiation vulcanisation of natural rubber latex, Radiat. Phys. Chem 51 (1998), pp. 309–315.
  • Rahman, M. W., Haque, M. E., Rahman, M. M., and Abedin, M. Z., 2009. Improvement of physico-mechanical properties of radiation vulcanised natural rubber latex films by adding urea, Polym.-Plast. Technol. Eng. 48 (2009), pp. 696–700.
  • Mishra, G. S., 1997. Introductory Polymer Chemistry. New Delhi, India: New Age Intl. (Pvt.) Ltd; 1997. p. 197.

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