References
- Garnett, J. L., and S. V. Jankiewiez. 1981. Acid effects in radiation polymerisation and grafting reactions. Radiat. Phys. Chem. 18: 469–477.
- Grushevskaya, L. N., R. E. Aliev, and V. Y. Kabanov. 1990. Radiation–induced graft polymerization of acrylamide and acrylic acid onto polyethylene. Radiat. Phys. Chem. 36: 475–479.
- Osawa, Z. 1988. Role of metals and metal-deactivators in polymer degradation. Polym. Degradation Stab. 20: 203–236.
- Seentrakoon, B., B. Junhasavasdikul, and W. Chavasiri. 2013. Enhanced UV-protection and antibacterial properties of natural rubber/rutile-TiO2 nanocomposites. Polym. Degradation Stab. 98: 566–578.
- Kongkaew, C., S. Pattanawanidchai, O. Chaikumpollert, and S. Loykulnant. 2012. Factors affecting creaming efficiency of bio-based polymers, vulcanization and mechanical properties of creamed skim rubber. Biomass Bioenergy 46: 233–241.
- Liu, C.-P., M.-K. Wang, J.-C. Xie, W.-X. Zhang, and Q.-S. Tong. 2013. Mechanochemical degradation of the crosslinked and foamed EVA multicomponent and multiphase waste material for resource application. Polym. Degradation Stab. 98: 1963–1971.
- Dutt, K., and R. K. Soni. 2013. Synthesis and characterization of polymeric plasticizer from PET waste and its applications in nitril rubber and nitril-PVC blend. Iran. Polym. J. 22: 481–491.
- Rahman, M. W., M. J. Alam, M. M. Hossain, N. C. Dafader, and M. E. Haque. 2014. Role of divalent metals on polymer degradation. Int. J. Polym. Anal. Charact. 19: 39–47.
- Rahman, M. W., M. M. Hossain, M. J. Alam, N. C. Dafader, and M. E. Haque. 2013. Addition of transition metals to improve physico-mechanical properties of radiation vulcanized natural rubber latex films. Int. J. Polym. Anal. Charact. 18: 479–487.
- Rahman, M. W., M. J. Alam, and M. M. R. Khan. 2015. Effect of manganese on radiation vulcanization of natural rubber. Int. J. Polym. Anal. Charact. 20: 406–413.
- Haque, M. E., N. C. Dafader, F. Akhtar, and M. U. Ahmad. 1996. Radiation dose required for the vulcanization of natural rubber latex. Radiat. Phys. Chem. 48: 505–510.
- Mahfuza, S. S., M. E. Haque, N. C. Dafader, F. Akhtar, and M. U. Ahmad. 1996. Improvement of physical properties of radiation vulcanised natural rubber latex film. Macromol. Rep. A33(Suppl. 3/4): 175–185.
- Flory, P. J., and J. Rehner. 1943. Statistical mechanics of cross-linked polymer networks. II. Swelling. J. Chem. Phys. 1: 521–526.
- Puig, R. J. 1971. Radiation curing of natural rubber latex. At. Energy Rev. (France) 9: 373–397.
- Chyagrit, S. U., K. Makuuchi, and I. Ishigaki. 1990. Radiation vulcanization mechanism of liquid isoprene with 2-ethylhexyl acrylate. In Proceedings of the International Symposium on Radiation Vulcanization of Natural Rubber Latex, ed. S. Machi. Tokaimura, Japan: Japan Atomic Energy Research Institute, pp. 189–228.
- Sabharwal, S., Y. K. Bhardwaj, C. V. Chaudhari, B. R. Dhanawade, and A. B. Majali. 1992. Radiation chemical aspects of RVNRL technology. In Proceedings of the Seminar on Radiation Vulcanization of Natural Rubber Latex, Kottayam India, 26th June, pp. 30–36.
- Sabharwal, S., T. N. Das, C. V. Chaudhari, Y. K. Bhardwaj, and A. B. Majali. 1998. Mechanism of n-butyl acrylate sensitization action in radiation vulcanization of natural rubber latex. Radiat. Phys. Chem. 51: 309–315.
- Rahman, M. W., M. E. Haque, M. M. Rahman, and M. Z. Abedin. 2009. Improvement of physico–mechanical properties of radiation vulcanised natural rubber latex films by adding urea. Polym.-Plast. Technol. Eng. 48: 696–700.
- Mishra, G. S. 1997. Introductory Polymer Chemistry. New Delhi, India: New Age Intl. (Pvt.) Ltd.