Abstract
A feasible and innovative reaction kinetics control method was proposed to reduce the degradation, cross-linking and other side reactions during the melt grafting process. The components in the melt grafting system were firstly blended at a temperature lower than the half-life (170 °C) of the radical initiator. After the system was homogeneous, the temperature was raised to the half-life temperature for high-temperature melting reaction. By regulating the reaction kinetics of silane grafted EVA system, the collision probability between macromolecular free radicals and grafted monomers was effectively increased. The efficiency and grafting rate of EVA grafted by silane were significantly improved, which reached a maximum of 74.45 % and 4.81 wt%, respectively. The thermal behavior, crystallographic, mechanical and electrical properties of the grafts were further characterized, which made the structure-activity relationship of polymers construct and investigate.
Published Version
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