Influence of electron accelerator irradiation on epoxy nanocomposites materials for spacecraft structure

Abstract: Different types of surfactants namely, nonionic, anionic and cationic represented by Polyoxyethylene sorbitan monooleate (Tween 80), sodium dodecyl sulfate (SDS), and cetyltrimethylammonium bromide (CTAB) respectively were used to select a proper type of surfactant enhancing dispersion quality of multiwall carbon nanotubes (MWCNTs) in the epoxy resin. In this study, the effect of electron beams whch are one of the most severe space environment threats. The candidate material proposed in this study will be used… Show more

“…28 Many space environment influences, including as atomic oxygen, high vacuum, cold and thermal cycle, ultraviolet radiation, space debris, and radiation are strongly felt during the life of a spacecraft, which will cause the rapid deterioration of polymer materials. 29,30 The radiation approach offers numerous advantages over other techniques used to create hydrogels, copolymers, and composites since it is an easy, effective, clean, and environmentally friendly process. 31 A deeper understanding of the radiation chemistry of polymer systems is required for the effective implementation and further development of this radiation technique.…”

“…An important area of scientific inquiry has always been the interaction of radiation with materials 28 . Many space environment influences, including as atomic oxygen, high vacuum, cold and thermal cycle, ultraviolet radiation, space debris, and radiation are strongly felt during the life of a spacecraft, which will cause the rapid deterioration of polymer materials 29,30 . The radiation approach offers numerous advantages over other techniques used to create hydrogels, copolymers, and composites since it is an easy, effective, clean, and environmentally friendly process 31 .…”

Influence of gamma irradiation on acrylate‐based shape memory polymers in the presence of various crosslinkers

“…28 Many space environment influences, including as atomic oxygen, high vacuum, cold and thermal cycle, ultraviolet radiation, space debris, and radiation are strongly felt during the life of a spacecraft, which will cause the rapid deterioration of polymer materials. 29,30 The radiation approach offers numerous advantages over other techniques used to create hydrogels, copolymers, and composites since it is an easy, effective, clean, and environmentally friendly process. 31 A deeper understanding of the radiation chemistry of polymer systems is required for the effective implementation and further development of this radiation technique.…”

“…An important area of scientific inquiry has always been the interaction of radiation with materials 28 . Many space environment influences, including as atomic oxygen, high vacuum, cold and thermal cycle, ultraviolet radiation, space debris, and radiation are strongly felt during the life of a spacecraft, which will cause the rapid deterioration of polymer materials 29,30 . The radiation approach offers numerous advantages over other techniques used to create hydrogels, copolymers, and composites since it is an easy, effective, clean, and environmentally friendly process 31 .…”

Influence of gamma irradiation on acrylate‐based shape memory polymers in the presence of various crosslinkers