Shi, H.; Lan, T.; Pinnavaia, T. J.
view article (7.225548)
Interfacial Effects on the Reinforcement Properties of Polymers: Organoclay Nanocomposites.
Michigan State Univ., East Lansing
Chemistry of Materials,
Vol. 8,
1584-1587,
1996
Agag, T.; Koga, T.; Takeichi, T.
view article (7.225548)
Studies on Thermal and Mechanical Properties of Polyimide-Clay Nanocomposites.
Toyohashi University of Technology, Japan
Polymer,
Vol. 42,
No. 8,
3399-3408,
April 2001
Fu, B. X.; Hsiao, B. S.; Pagola, S.; Stephens, P.; White, H.; Rafailovich, M.; Sokolov, J.; Mather, P. T.; Jeon, H. G.; Phillips, S.; Lichtenhan, J.; Schwab, J.
view article (7.225548)
Structural Development During Deformation of Polyurethane Containing Polyhedral Oligomeric Silsesquioxanes (POSS) Molecules.
Polymer,
Vol. 42,
No. 2,
599-611,
January 2001
Fu, X.; Qutubuddin, S.
view article (7.225548)
Polymer-Clay Nanocomposites: Exfoliation of Organophilic Montmorillonite Nanolayers in Polystyrene.
Polymer,
Vol. 42,
No. 2,
807-813,
January 2001
Dabrowski, F.; LeBras, M.; Cartier, L.; Bourbigot, S.
view article (7.225548)
Use of Clay in an EVA-Based Intumescent Formulation. Comparison With the Intumescent Formulation Using Polyamide-6 Clay Nanocomposite as Carbonisation Agent.
Ecole Nationale Superieure de Chimie de Lille, Cedex, France
Journal of Fire Sciences,
Vol. 19,
No. 3,
219-241,
May/June 2001
Nyden, M. R.; Gilman, J. W.; Davis, R. D.; Harris, R. H., Jr.; Awad, W. H.
view article (7.225548)
High-Throughput Approaches to Materials Flammability Research.
National Institute of Standards and Technology, Gaithersburg, MD
Recent Advances in Flame Retardancy of Polymeric Materials: Materials, Applications, Research and Industry Developments, Markets. Volume 12. Business Communications Co., Inc. (BCC). May 21-23, 2001,
Business Communications Co., Inc., Norwalk, CT,
Stamford, CT,
Lewin, M., Editors,
44-53 p.,
2001
Lomakin, S. M.; Usachev, S. V.; Koverzanova, E. V.; Shilkina, N. G.; Ruban, L. V.; Zaikov, G. E.
view article (7.225548)
Polymer Nanocomposites and Intercalated Flame Retardants. New Approaches to reduce Plastics Combustibility.
Russian Academy of Science, Moscow
Oxidation Communications,
Vol. 25,
No. 2,
165-183,
2002
Dennis, H. R.; Hunter, D. L.; Chang, D.; Kim, S.; White, J. L.; Cho, J. W.; Paul, D. R.
view article (7.225548)
Nanocomposites: The Importance of Processing.
Southern Clay Products, Gonzales, TX; University of Akron, OH; University of Texas, Austin
Plastics Engineering,
Vol. 57,
No. 1,
56-60,
January 2001
Kashiwagi, T.; Grulke, E.; Hilding, J.; Groth, K. M.; Harris, R. H., Jr.; Butler, K. M.; Shields, J. R.; Kharchenko, S.; Douglas, J. F.
view article (7.225548)
Thermal and Flammability Properties of Polypropylene/Carbon Nanotube Nanocomposites.
National Institute of Standards and Technology, Gaithersburg, MD; Kentucky Univ., Lexington
Polymer,
Vol. 45,
No. 12,
4227-4239,
May 2004
Sorathia, U.; Perez, I.
view article (7.225548)
Improving the Fire Performance Characteristics of Composite Materials for Naval Applications.
Naval Surface Warfare Center
Fire and Materials 2005. 9th International Conference. Conference Papers. Proceedings. Organised by Interscience Communications Limited. January 31-February 1, 2005,
Interscience Communications Limited, London, England,
San Francisco, CA,
415-424 p.,
2005