ID | 130739 |
Title Proper | Development of an advanced engineering polymer from the modification of nylon 66 by e-beam irradiation |
Language | ENG |
Author | Pramanik, N. K ; Haldar, R. S ; Niyogi, U. K ; Alam, M. S |
Publication | 2014. |
Summary / Abstract (Note) | When Nylon 66 was irradiated by an optimum dose of e-beam in presence of polyurethane as impact modifierin combination with triallyl is ocyanurate as cross-linker, a superior performance was observed for the irradiated nylon 66. Significant improvement of properties, such as hardness, tensile strength, flexural modulus and impact strength was obtained on radiation processing of nylon 66 by e-beam. More interestingly, percent water absorptionof such irradiated nylon 66 was reduced substantially. Improvement of mechanical properties and reduction of water absorption of irradiated nylon 66 were due to the cross-linking of the polymer system. Increase of cross-linkingwith dose of e-beam was verified by the increased gel content at higher doses. Irradiated nylon 66 showed betterdimensional stability than those achieved with pristine nylon 66. The increase in dimensional stability may beattributed to reduction in crystallinity with increasing dose of e-beam as revealed by DSC studies. |
`In' analytical Note | Defence Science Journal Vol.64, No.3; May 2014: p.281-289 |
Journal Source | Defence Science Journal Vol.64, No.3; May 2014: p.281-289 |
Key Words | Nylon 66 ; E-Beam Irradiation ; Radiation Cross-Linking ; Polyurethane ; Crosslink Network ; Water Absorption ; Irradiated Nylon ; Mechanical Properties ; Nano Technology ; Biotechnology ; Polymer System ; Fiber Technology ; Advanced Engineering Polymer - AEP ; Advanced Engineering ; Engineering ; Bioengineering |