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Nanostructural Features of Radiation Cured Networks for High Performance Composites: From Incurred Heterogeneities to Tailored Nanocomposites

Abstract

The radiation-induced polymerization of multiacrylates is suspected to generate heterogeneous networks at various dimension scales. In order to gain an insight into the polymer microstructure, a combination of analytic methods was used to quantify polymer segment mobility in the different domains [4,5]. Model epoxy or ethoxylated bis-phenol A diacrylates, EPAC and ETAC respectively, were used as precursors of representative networks for our investigations.
Authors:
Krzeminski, Mickael; [1]  EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex (France)]; Ranoux, Guillaume; Coqueret, Xavier; [1]  Molinari, Michael; [2]  Chabbert, Brigitte; Aguié, Véronique; [3]  Defoort, Brigitte [4] 
  1. Institut de Chimie Moléculaire de Reims (France)
  2. Laboratoire des Microscopies et d’Etude des Nanostructures (France)
  3. UMR INRA Fractionnement des Agro-ressources et Environnement, Université de Reims Champagne Ardenne - 51687 Reims (France)
  4. EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex, (France)
Publication Date:
Jul 01, 2011
Product Type:
Conference
Report Number:
IAEA-RC-1207.1
Resource Relation:
Conference: 1. RCM on Radiation Curing of Composites for Enhancing the Features and Utility in Health Care and Industry, Vienna (Austria), 18-22 Jul 2011; Other Information: 12 refs., 9 figs.; Related Information: In: Report of the 1st RCM on Radiation Curing of Composites for Enhancing the Features and Utility in Health Care and Industry. Working Material| 179 p.
Subject:
77 NANOSCIENCE AND NANOTECHNOLOGY; 60 APPLIED LIFE SCIENCES; ACRYLATES; COMPOSITE MATERIALS; EPOXIDES; MICROSTRUCTURE; MOBILITY; NANOSTRUCTURES; PHENOL; POLYMERIZATION; POLYMERS; PRECURSOR
OSTI ID:
22270124
Research Organizations:
International Atomic Energy Agency, Division of Physical and Chemical Sciences, Vienna (Austria)
Country of Origin:
IAEA
Language:
English
Other Identifying Numbers:
TRN: XA14M2993091356
Availability:
Available from INIS in electronic form. Also available on-line: http://www-naweb.iaea.org/napc/iachem/working_materials/RC-1207-1-report.pdf
Submitting Site:
INIS
Size:
page(s) 78-87
Announcement Date:
Oct 23, 2014

Citation Formats

Krzeminski, Mickael, EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex (France)], Ranoux, Guillaume, Coqueret, Xavier, Molinari, Michael, Chabbert, Brigitte, Aguié, Véronique, and Defoort, Brigitte. Nanostructural Features of Radiation Cured Networks for High Performance Composites: From Incurred Heterogeneities to Tailored Nanocomposites. IAEA: N. p., 2011. Web.
Krzeminski, Mickael, EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex (France)], Ranoux, Guillaume, Coqueret, Xavier, Molinari, Michael, Chabbert, Brigitte, Aguié, Véronique, & Defoort, Brigitte. Nanostructural Features of Radiation Cured Networks for High Performance Composites: From Incurred Heterogeneities to Tailored Nanocomposites. IAEA.
Krzeminski, Mickael, EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex (France)], Ranoux, Guillaume, Coqueret, Xavier, Molinari, Michael, Chabbert, Brigitte, Aguié, Véronique, and Defoort, Brigitte. 2011. "Nanostructural Features of Radiation Cured Networks for High Performance Composites: From Incurred Heterogeneities to Tailored Nanocomposites." IAEA.
@misc{etde_22270124,
title = {Nanostructural Features of Radiation Cured Networks for High Performance Composites: From Incurred Heterogeneities to Tailored Nanocomposites}
author = {Krzeminski, Mickael, EADS Astrium, BP 20011, 33165 Saint Médard en Jalles Cedex (France)], Ranoux, Guillaume, Coqueret, Xavier, Molinari, Michael, Chabbert, Brigitte, Aguié, Véronique, and Defoort, Brigitte}
abstractNote = {The radiation-induced polymerization of multiacrylates is suspected to generate heterogeneous networks at various dimension scales. In order to gain an insight into the polymer microstructure, a combination of analytic methods was used to quantify polymer segment mobility in the different domains [4,5]. Model epoxy or ethoxylated bis-phenol A diacrylates, EPAC and ETAC respectively, were used as precursors of representative networks for our investigations.}
place = {IAEA}
year = {2011}
month = {Jul}
}