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References:
1. Nield S. A., Budman H. M., and Tzoganakis C., “Control of a LDPE Reactive Extrusion Process,” Control Eng. Pract., 8, 911–920, 2000.
2. White J. L., Choi D., and Choi C.-H., “Crystallization and Structure Development in Polyolefin Processing.,” Arab. J. Sci. Eng., 27, 69–97, 2002.
3. Santamaria A. and White J. L., “Rheological Properties, Shrinkage and Melt Spinning Instability of Blends of Linear Polyolefins with Low Density Polyethylene,” J. Appl. Polym. Sci., 31, 209–224, 1986.
4. Channell A. D. and Clutton E. Q., “The Effects of Short Chain Branching and Molecular Weight on the Impact Fracture Toughness of Polyethylene,” Polymer, 33, 4108–4112, 1992.
5. Jorgensen J. K., Stori A., Redford K., and Ommundsen E., “Introduction of Long-chain Branches in Linear Polyethylene by Light Cross-linking with 1, 3-benzenedisulfonyl azide,” Polymer, 46, 12256–12266, 2005.
6. Chae H. G., Kim B. C., Im S. S., and Han Y. K., “Effect of Molecular Weight and Branch Structure on the Crystallization and Rheological Properties of Poly (butylene adipate),” Polym. Eng. Sci., 41, 1133–1139, 2001.
7. Gao C. and Yan D., “Hyperbranched Polymers: from Synthesis to Applications,” Prog. Polym. Sci., 29, 183–275, 2004.
8. Hadjichristidis N., Xenidou M., Iatrou H., Pitsikalis M., Poulos Y., Avgeropoulos A., Sioula S., Paraskeva S., Velis G., and Lohse D. J., “Well-defined, Model Long Chain Branched Polyethylene. 1. Synthesis and Characterization,” Macromolecules, 33, 2424–2436, 2000.
9. Gahleitner M., “Melt Rheology of Polyolefins,” Prog. Polym. Sci., 26, 895–944, 2001.
10. Vega J., Aguilar M., Peón J., Pastor D., and Martínez-Salazar J., “Effect of Long Chain Branching on Linear-Viscoelastic Melt Properties of Polyolefins,” e-Polymers, 2, 624–658, 2002.
11. Zatloukal M., “Measurements and Modeling of Temperature-Strain Rate Dependent Uniaxial and Planar Extensional Viscosities for Branched LDPE Polymer Melt,” Polymer,104, 258–267, 2016.
12. Passaglia E., Coiai S., and Augier S., “Control of Macromolecular Architecture During the Reactive Functionalization in the Melt of Olefin Polymers,” Prog. Polym. Sci., 34, 911–947, 2009.
13. Manley T. R. and Qayyum M. M., “The Effects of Varying Peroxide Concentration in Crosslinked Linear Polyethylene,” Polymer., 12, 176–188, 1971.
14. Zhang X., Yang H., Song Y., and Zheng Q., “Rheological Behaviors of Randomly Crosslinked Low Density Polyethylene and its Gel Network,” Polymer, 53, 3035–3042, 2012.
15. Curro J. G., Pearson D. S., and Helfand E., “Viscoelasticity of Randomly Crosslinked Polymer Networks. Relaxation of Dangling Chains,” Macromolecules, 18, 1157–1162, 1985.
16. Gustafsson B., Boström J., and Dammert R. C., “Stabilization of Peroxide Crosslinked Polyethylene,” Macromol. Mater. Eng., 261, 93–99, 1998.
17. Romani F., Corrieri R., Braga V., and Ciardelli F., “Monitoring the Chemical Crosslinking of Propylene Polymers Through Rheology,” Polymer, 43, 1115–1131, 2002.
18. Tai H., “Molecular Structural Evolution in Crosslinking Low Density Polyethylene–Trimethylolpropane Trimethacrylate Systems,” Polym. Eng. Sci., 41, 95–106, 2001.
19. Russell K. E., “Free Radical Graft Polymerization and Copolymerization at Higher Temperatures,” Prog. Polym. Sci., 27, 1007–1038, 2002.
20. Raval H., Singh Y. P., Mehta M. H., and Devi S., “Grafting of Low Density Poly (ethylene) with Butyl Acrylate: Synthesis and Characterisation,” Polym. Int., 24, 99–104, 1991.
21. Chew W. S., “Investigation of TMPTMA Added ABS, LDPE, HDPE and EVA with Electron Beam.” PhD thesis, UTAR, 2015.
22. Ali Z. I., Youssef H. A., Said H. M., and Saleh H. H., “Influence of Electron Beam Irradiation and Polyfunctional Monomer Loading on the Physico‐Chemical Properties of Polyethylene/Polypropylene Blends,” Adv. Polym. Technol., 25, 208–217, 2006.
23. Cicogna F., Coiai S., Moliterni D., Ruggeri G., Coltelli M., Lazzeri A., and Passaglia E., “Co‐agent Mediated Functionalization of LDPE/iPP Mixtures for Compatibilization of WEEE‐Recovered Polyvinylchloride,” Polym. Int., 65, 621–630, 2016.
1. Nield S. A., Budman H. M., and Tzoganakis C., “Control of a LDPE Reactive Extrusion Process,” Control Eng. Pract., 8, 911–920, 2000.
2. White J. L., Choi D., and Choi C.-H., “Crystallization and Structure Development in Polyolefin Processing.,” Arab. J. Sci. Eng., 27, 69–97, 2002.
3. Santamaria A. and White J. L., “Rheological Properties, Shrinkage and Melt Spinning Instability of Blends of Linear Polyolefins with Low Density Polyethylene,” J. Appl. Polym. Sci., 31, 209–224, 1986.
4. Channell A. D. and Clutton E. Q., “The Effects of Short Chain Branching and Molecular Weight on the Impact Fracture Toughness of Polyethylene,” Polymer, 33, 4108–4112, 1992.
5. Jorgensen J. K., Stori A., Redford K., and Ommundsen E., “Introduction of Long-chain Branches in Linear Polyethylene by Light Cross-linking with 1, 3-benzenedisulfonyl azide,” Polymer, 46, 12256–12266, 2005.
6. Chae H. G., Kim B. C., Im S. S., and Han Y. K., “Effect of Molecular Weight and Branch Structure on the Crystallization and Rheological Properties of Poly (butylene adipate),” Polym. Eng. Sci., 41, 1133–1139, 2001.
7. Gao C. and Yan D., “Hyperbranched Polymers: from Synthesis to Applications,” Prog. Polym. Sci., 29, 183–275, 2004.
8. Hadjichristidis N., Xenidou M., Iatrou H., Pitsikalis M., Poulos Y., Avgeropoulos A., Sioula S., Paraskeva S., Velis G., and Lohse D. J., “Well-defined, Model Long Chain Branched Polyethylene. 1. Synthesis and Characterization,” Macromolecules, 33, 2424–2436, 2000.
9. Gahleitner M., “Melt Rheology of Polyolefins,” Prog. Polym. Sci., 26, 895–944, 2001.
10. Vega J., Aguilar M., Peón J., Pastor D., and Martínez-Salazar J., “Effect of Long Chain Branching on Linear-Viscoelastic Melt Properties of Polyolefins,” e-Polymers, 2, 624–658, 2002.
11. Zatloukal M., “Measurements and Modeling of Temperature-Strain Rate Dependent Uniaxial and Planar Extensional Viscosities for Branched LDPE Polymer Melt,” Polymer,104, 258–267, 2016.
12. Passaglia E., Coiai S., and Augier S., “Control of Macromolecular Architecture During the Reactive Functionalization in the Melt of Olefin Polymers,” Prog. Polym. Sci., 34, 911–947, 2009.
13. Manley T. R. and Qayyum M. M., “The Effects of Varying Peroxide Concentration in Crosslinked Linear Polyethylene,” Polymer., 12, 176–188, 1971.
14. Zhang X., Yang H., Song Y., and Zheng Q., “Rheological Behaviors of Randomly Crosslinked Low Density Polyethylene and its Gel Network,” Polymer, 53, 3035–3042, 2012.
15. Curro J. G., Pearson D. S., and Helfand E., “Viscoelasticity of Randomly Crosslinked Polymer Networks. Relaxation of Dangling Chains,” Macromolecules, 18, 1157–1162, 1985.
16. Gustafsson B., Boström J., and Dammert R. C., “Stabilization of Peroxide Crosslinked Polyethylene,” Macromol. Mater. Eng., 261, 93–99, 1998.
17. Romani F., Corrieri R., Braga V., and Ciardelli F., “Monitoring the Chemical Crosslinking of Propylene Polymers Through Rheology,” Polymer, 43, 1115–1131, 2002.
18. Tai H., “Molecular Structural Evolution in Crosslinking Low Density Polyethylene–Trimethylolpropane Trimethacrylate Systems,” Polym. Eng. Sci., 41, 95–106, 2001.
19. Russell K. E., “Free Radical Graft Polymerization and Copolymerization at Higher Temperatures,” Prog. Polym. Sci., 27, 1007–1038, 2002.
20. Raval H., Singh Y. P., Mehta M. H., and Devi S., “Grafting of Low Density Poly (ethylene) with Butyl Acrylate: Synthesis and Characterisation,” Polym. Int., 24, 99–104, 1991.
21. Chew W. S., “Investigation of TMPTMA Added ABS, LDPE, HDPE and EVA with Electron Beam.” PhD thesis, UTAR, 2015.
22. Ali Z. I., Youssef H. A., Said H. M., and Saleh H. H., “Influence of Electron Beam Irradiation and Polyfunctional Monomer Loading on the Physico‐Chemical Properties of Polyethylene/Polypropylene Blends,” Adv. Polym. Technol., 25, 208–217, 2006.
23. Cicogna F., Coiai S., Moliterni D., Ruggeri G., Coltelli M., Lazzeri A., and Passaglia E., “Co‐agent Mediated Functionalization of LDPE/iPP Mixtures for Compatibilization of WEEE‐Recovered Polyvinylchloride,” Polym. Int., 65, 621–630, 2016.
