November 22, 2024
Ali Yadegari

Ali Yadegari

Academic Rank: Assistant professor
Address: Faculty of Petroleum, Gas and Petrochemical Engineering, Persian Gulf University, Bushehr, Iran
Degree: Ph.D in Polymer Engineering
Phone: 07731222634
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title Influence of post-irradiation conditions on crosslinking and oxidation of microporous polyethylene membrane
Type Article
Keywords
Microporous polyethylene membrane Electron-beam treatment Oxidation Crosslinking Crystallization
Journal Radiation Physics and Chemistry
DOI https://doi.org/10.1016/j.radphyschem.2022.109997
Researchers Ali Yadegari (First researcher) , Uwe Gohs (Second researcher) ,

Abstract

Prevalence of oxidation reactions through electron-beam (EB) treatment of microporous polyethylene membranes under various atmospheres and over a range of doses was investigated to determine the appropriate conditions assisting the viability of crosslinking. EB treatment in air promoted oxidation of membranes so that no gel content was measured, however, this made them slightly less hydrophobic. Although there was a reduction in the oxidation reactions when performing the EB treatment under vacuum, but no detectable gel content was yet found which was assumed to be due to post-irradiation oxidation reactions via trapped radicals upon exposing the EB modified membranes to the air ambient. Therefore, in another experiment designated as VacuumN2, the membrane was kept under nitrogen gas immediately after EB treatment in vacuum allowing the decay of trapped radicals in an inert atmosphere. Consequently, oxidation reactions were practically eliminated leading to a measurable amount of gel content in EB modified membrane under VacuumN2. Additionally, SEM micrographs of EB modified membrane under VacuumN2 verified the enhanced thermal stability by rather preserving the original pattern of the membrane subsequent to thermal annealing close to its melting temperature. Furthermore, regarding the DSC analysis of EB modified membranes, it was overall found that crystallization exotherms are more affected than melting endotherms by the conditions during and after EB treatment.