Covers recent advances in the generation of thermally stable and flame retardant polymer nanocomposites, placing theory within a commercial context.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Preface; Part I. Thermal Stability: 1. Polymer nanocomposites: layered silicates, surface modifications and thermal stability V. Mittal; 2. Mechanism of thermal degradation of layered silicates modified with ammonium and other thermally stable salts K. Pielichowski, A. Leszczy¿ska and J. Njuguna; 3. Thermal stability of PS nanocomposites from improved thermally stable organoclays Musa R. Kamal and Jorge Uribe-Calderon; 4. PET nanocomposites using nanoclays modified with thermally stable surfactants Evangelos Manias, Matthew J. Heidecker, Hiroyoshi Nakajima, Marius C. Costache and Charles A. Wilkie; 5. Thermally stable polyimide/BAPS modified clay nanocomposites Joshua U. Otaigbe and Vladimir E. Yudin; 6. Clays modified with thermally stable ionic liquids with applications in polyolefin and polylactic acid nanocomposites Marino Xanthos and Jin Uk Ha; Part II. Flame Retardancy: 7. Introduction to flame retardancy of polymer clay nanocomposites Tie Lan and Günter Beyer; 8. Flame retardant nanocomposites with polymer blends J. Zhang, M. A. Delichatsios, A. Fina, G. Camino, F. Samyn, S. Bourbigot and S. Nazaré; 9. Flame retardancy of polyamide/clay nanocomposites Yuan Hu, Lei Song and Qilong Tai; 10. Self-extinguishing polymer clay nanocomposites Miriam H. Rafailovich and Seongchan Pack; 11. Flame retardant polymer nanocomposites with fullerenes as filler Zhengping Fang and Pingan Song; 12. Flame retardant polymer nanocomposites with alumina as filler José-Marie Lopez Cuesta and Abdelghani Laachachi; 13. Polymer/layered double hydroxide flame retardant nanocomposites Baojun Qu and Longzhen Qiu; 14. Flame retardant SBS-clay nanocomposites Mauro Comes-Franchini, Massimo Messori, Guido Ori and Cristina Siligardi; Index.
Preface; Part I. Thermal Stability: 1. Polymer nanocomposites: layered silicates, surface modifications and thermal stability V. Mittal; 2. Mechanism of thermal degradation of layered silicates modified with ammonium and other thermally stable salts K. Pielichowski, A. Leszczy¿ska and J. Njuguna; 3. Thermal stability of PS nanocomposites from improved thermally stable organoclays Musa R. Kamal and Jorge Uribe-Calderon; 4. PET nanocomposites using nanoclays modified with thermally stable surfactants Evangelos Manias, Matthew J. Heidecker, Hiroyoshi Nakajima, Marius C. Costache and Charles A. Wilkie; 5. Thermally stable polyimide/BAPS modified clay nanocomposites Joshua U. Otaigbe and Vladimir E. Yudin; 6. Clays modified with thermally stable ionic liquids with applications in polyolefin and polylactic acid nanocomposites Marino Xanthos and Jin Uk Ha; Part II. Flame Retardancy: 7. Introduction to flame retardancy of polymer clay nanocomposites Tie Lan and Günter Beyer; 8. Flame retardant nanocomposites with polymer blends J. Zhang, M. A. Delichatsios, A. Fina, G. Camino, F. Samyn, S. Bourbigot and S. Nazaré; 9. Flame retardancy of polyamide/clay nanocomposites Yuan Hu, Lei Song and Qilong Tai; 10. Self-extinguishing polymer clay nanocomposites Miriam H. Rafailovich and Seongchan Pack; 11. Flame retardant polymer nanocomposites with fullerenes as filler Zhengping Fang and Pingan Song; 12. Flame retardant polymer nanocomposites with alumina as filler José-Marie Lopez Cuesta and Abdelghani Laachachi; 13. Polymer/layered double hydroxide flame retardant nanocomposites Baojun Qu and Longzhen Qiu; 14. Flame retardant SBS-clay nanocomposites Mauro Comes-Franchini, Massimo Messori, Guido Ori and Cristina Siligardi; Index.
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