Authors
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Perez, R. M. ; Sandler, J. ; Altstädt, V. ; Hoffmann, T. ; Pospiech, D. ; Artner, J. ; Ciesielski, M. ; Döring, M. ; Balabanovich, A. ; Schartel, B.
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Title
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Effective halogen-free flame retardancy for a monocomponent polyfunctional epoxy using an oligomeric organophosphorus compound
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Date
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31.12.2006
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Number
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15042
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Abstract
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Epoxy-based resins are commonly used for applications including adhesives, insulating materials for electrical devices as well as for fibre-reinforced composites in the transportation sector. The growing importance of modern epoxy resins for the manufacture of high-performance fibre-reinforced composites is partly reflecting the potential to be tailored for the use in liquid composite moulding (LCM) approaches such as resin transfer moulding (RTM) that are rapidly gaining a widespread acceptance in the aerospace or automotive industry. However, applications in mass transport systems especially are sensitive to fire, smoke and toxicity (FST) aspects in a fire scenario owing to the inherently confined operating conditions. Therefore, the use of matrix materials that delay ignition or rapidly self-extinguish after ignition and show a low toxicity upon burning are highly desired for such modern-day composite applications.
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Publisher
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Journal of Materials Science
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Wikidata
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12
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Citation
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Journal of Materials Science 41 (2006) 8347-8351
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DOI
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https://doi.org/10.1007/s10853-006-1079-3
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Tags
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differential scanning calorimetry fire retardancy resin
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