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Nonpolluting Composites Repair and Remanufacturing for Military Applications: Formulation of Electron-Beam-Curable Resins with Enhanced Toughening

机译：用于军事应用的无污染复合材料修复和再制造：具有增强增韧的电子束可固化树脂的配方

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Polymer-matrix composite material and structural adhesive repair and manufacturing have significant environmental costs. These costs were recently documented based on current and anticipated future Department of Defense (DOD) use of these materials. The principal issues for reducing the environmental impact and its associated cost are (1) reduction in hazardous waste by eliminating shelf-life limitations, (2) reduction in nitrogen oxides by replacing global heating of the part with localized heating, (3) reduction in volatile organic compound (VOC) emissions by accelerated curing and containment, and (4) reduction in hazardous waste by minimizing production debris through processing step management. The predicted reduction in hazardous waste, which affects both raw materials and waste-disposal costs, is 78% for composite materials and 95% for adhesives. Nitrogen oxides and VOC emissions can be reduced by 100% and 50% by replacing autoclave curing with radiation curing. Electron-beam (E-beam) curing has successfully been applied to E-beam-curable prepegs, adhesives, and vacuum-assisted resin transfer molding (VARTM) resins while maintaining process-specific viscosities and application-specific thermal performance. For the first time, there is credible evidence that E-beam-curable resin systems can be formulated to have sufficient toughness while maintaining other required process and performance criteria. In this work, both free radically and cationically cured E-beam resin systems have been formulated.

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作者
Fink, B. K. ; McKnight, S. H. ; Sands, J. M. ; Palmese, G. R. ; Dalal, U. P.;
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年度 2000
页码 1-89
总页数 89
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Electron beams; Hazardous wastes; Epoxy resins; Thermal properties; Cations; Manufacturing; Aircraft maintenance; Polymers; Composite materials; Toughness; Matrix materials; Environmental impact; Repair; Military applications; Monomers; Curing; Nitrogen oxides; Adhesives; Ionizing radiation; Oligomers; Cost reduction;

机译：电子束;危险废物;环氧树脂;热性能;阳离子;制造;飞机维护;聚合物;复合材料;韧性;基质材料;环境影响;修复;军事应用;单体;固化;氮氧化物;粘合剂;电离辐射;低聚物;降低成本;

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Nonpolluting Composites Repair and Remanufacturing for Military Applications: Formulation of Electron-Beam-Curable Resins with Enhanced Toughening

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