10 MeV electron beam cross-linking of plasticized PVC in presence of EHPTM and TAC additives

• Autorzy: Behjat A. , Gheysari D.
• Języki publikacji: EN

Abstrakty

EN

Irradiation of plasticized PVC (PPVC) compound containing a cross-linking monomer was carried out by a 10 MeV electron beam. This compound mainly is used as insulation in the wire and cable industry. The cross-linking monomers EHPTM and TAC at different ratio of 3, 6, and 9 phr were used. The dose range was varied from 50 to 150 kGy. The effects of monomers and radiation dose on radiation cross-linking were studied by hot-set testing and gel content measurements. In the absence of EHPTM and TAC, cross-linking did not take place by high energy electron beam at any dose and samples had very large elongation in a hot-set apparatus. But in the presence of these monomers, gel content augmented with an increase in radiation dose and EHPTM level. The highest value of approximately 76% gel content was obtained. In this case the lowest hot-set value was about 12%. Also, tensile strength, elongation at break, modulus, volume resistivity, dielectric strength, and limiting oxygen index of samples were examined. It was found that the mechanical properties of samples containing EHPTM and TAC improved significantly with increasing radiation dose. But for PPVC samples loaded with EHPTM, tensile strength values were higher than those of the loaded ones with TAC at all radiation doses. From the hot-set data it is concluded that the samples loaded with EHPTM had a low thermal expansion compared with samples loaded with TAC. The results indicated that EHPTM is a more effective cross-linking agent for PPVC compound compared with TAC.

Słowa kluczowe

EN

plasticized PVC; electron beam; cross-linking; EHPTM; triallylcyanurate (TAC)

• Wydawca: Institute of Nuclear Chemistry and Technology
• Czasopismo: Nukleonika
• Rocznik: 2008
• Tom: Vol. 53, No. 2
• Strony: 57--62
• Opis fizyczny: Bibliogr. 16 poz., rys.

Twórcy

autor

Behjat A.

autor

Gheysari D.

• Physics Department, Yazd University, P. O. Box 89195-741, Yazd, Iran and Yazd Radiation Processing Center, P. O. Box 89175-389, Yazd, Iran, Tel.: +98 351 8122773, Fax: +98 351 7250110,

Bibliografia

• 1. Behjat A, Gheysari Dj, Mojrek A (2003) Dose distribution of high-energy electrons into planar and cylindrical layers of LDPE, HDPE, PVC and Cu for industrial applications. J Appl Polym Sci 89;5:1230–1241
• 2. Chmielewski AG, Haji-Saeid M, Ahmed S (2005) Progress in radiation processing of polymers. Nucl Instrum Methods Phys Res B 236:44–54
• 3. Clough RL (2001) High-energy radiation and polymers: a review of commercial processes and emerging applications.Nucl Instrum Methods Phys Res B 185:8–33
• 4. Dankin VI (1996) Radiation-induced network formation in polyvinyl chloride-polyfunctional monomer systems. Radiat Phys Chem 48;3:343–348
• 5. de Hollain G (1980) The influence of plasticisers on the radiation crosslinking of trimethylolpropane trimethacrylate in poly(vinyl chloride). Radiat Phys Chem 15;6:695–711
• 6. Gheysari Dj, Behjat A, Haji-Saeid M (2001) The effect of high-energy electron beam on mechanical and thermal properties of LDPE and HDPE. Eur Polym J 37:295–302
• 7. Hegazy El-Sayed A, Seguchi T, Machi S (1981) Radiationinduced oxidative degradation of poly(vinyl chloride). J Appl Polym Sci 26:2947–2957
• 8. Hell Z, Ravlic M, Bogdanovic Lj et al. (1983) Radiation crosslinked plasticized PVC-pipe. Radiat Phys Chem 22;3/5:619–625
• 9. Hjertbeg T, Dahl R (1991) Cooperation between chemical and physical networks in crosslinked and plasticized PVC. J Appl Polym Sci 42:107–113
• 10. Hu DS, Han CD (1987) Effect of polymer side chains on the infinite dilution diffusion coefficients of volatile liquids in poly(methyl methacrylate) and poly(ethyl methacrylate) at elevated temperatures. J Appl Polym Sci 34;1:423–429
• 11. Miller AA (1959) Radiation-cross linking of plasticized poly(vinyl chloride). Ind Eng Chem 51:1271–1274
• 12. Rodriguez-Fernandez O, Sanchez-Adame M (1991) Chemically crosslinked poly(vinyl chloride). J Vinyl Technol 13;4:184–186
• 13. Salman WA, Loan LD (1972) Radiation crosslinking of poly(vinyl chloride). J Appl Polym Sci 16:671–682
• 14. Sharma VK, Mahajan J, Bhattacharyya PK (1995) Electron beam (EB) crosslinking of PVC insulation in presence of sensitizer additives. Radiat Phys Chem 45;5:695–701
• 15. Youssef HA, Ali ZI, Zahran AH (2001) Electron beam structure modification of poly(vinyl chloride)-wire coating. Polym Degrad Stab 74:213–218
• 16.Yu Q, Zhu S, Zhou W (1998) Peroxide induced crosslinking and degradation of polyvinyl chloride. J Polym Sci 36:851–860