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Abstract Properties of some materials produced by electron-beam (EB) induced polymerization appear dependent upon the rate at which the initiating dose was delivered. However, the magnitude of these dose rate… Click to show full abstract
Abstract Properties of some materials produced by electron-beam (EB) induced polymerization appear dependent upon the rate at which the initiating dose was delivered. However, the magnitude of these dose rate effects (DREs) can vary greatly with different monomer formulations, suggesting DREs are dependent on chemical structure. The relationship among dose, dose rate, conversion, and the glass transition temperature (T g ) of the cured material was explored for an acrylate monomer series. A strong correlation was determined between the DRE magnitude and monomer size, and this correlation may be attributed to chain transfer. Using the T g shift caused by changes in dose, a preliminary predictive relationship was developed to estimate the magnitude of the T g DRE, enabling scale-up of process variables for polymers prone to dose rate effects.
Journal Title: Radiation Physics and Chemistry
Year Published: 2017
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