Beschreibung
Inhaltsangabe* Preface. * List of Abbreviations. *1: Introduction. 1. Overview of green polymers. 2. Morphology in the molecular level. 3. Structure and properties. 4. Scope. *2: Characterization of Green Polymers. 1. Thermal Analysis. 2. Other Characterization Methods. *3: Cellulose and its Derivatives. 1. Introduction. 2. Thermal properties of cellulose in dry state. 3. Cellulose-water interaction. 4. Liquid crystals and complexes. 5. Hydrogels. 6. Thermal decomposition. *4: Polysaccharides from Plants. 1. Gelation. 2. Glass transition and liquid crystal transition. *5: Lignin. 1. Introduction. 2. Glass transition of lignin in solid state. 3. Heat capacity and enthalpy relaxation of lignin. 4. Molecular relaxation. 5. Lignin-water interaction. 6. Thermal decomposition. *6: PCL Derivatives from Saccharides, Cellulose and Lignin. 1. Polycaprolactone derivatives from saccharides and cellulose. 2. Polycaprolactone derivatives from lignin. *7: Environmentally Compatible Polyurethanes Derived from Saccharides, Polysaccharids and Lignin. 1. Polyurethane derivatives from saccharides. 2. Polyurethanes derived from lignin. 3. Saccharides- and lignin-based hybrid polyurethane foams. *8: Bio- and Geocomposites Containing Plant Materials. 1. Biocomposites containing cellulose powder and wood meal. 2. Biocomposites containing coffee grounds. 3. Geocomposite. * Subject Index.
Produktsicherheitsverordnung
Hersteller:
Springer Verlag GmbH
juergen.hartmann@springer.com
Tiergartenstr. 17
DE 69121 Heidelberg
Autorenportrait
Inhaltsangabe* Preface. * List of Abbreviations. *1: Introduction. 1. Overview of green polymers. 2. Morphology in the molecular level. 3. Structure and properties. 4. Scope. *2: Characterization of Green Polymers. 1. Thermal Analysis. 2. Other Characterization Methods. *3: Cellulose and its Derivatives. 1. Introduction. 2. Thermal properties of cellulose in dry state. 3. Cellulose-water interaction. 4. Liquid crystals and complexes. 5. Hydrogels. 6. Thermal decomposition. *4: Polysaccharides from Plants. 1. Gelation. 2. Glass transition and liquid crystal transition. *5: Lignin. 1. Introduction. 2. Glass transition of lignin in solid state. 3. Heat capacity and enthalpy relaxation of lignin. 4. Molecular relaxation. 5. Lignin-water interaction. 6. Thermal decomposition. *6: PCL Derivatives from Saccharides, Cellulose and Lignin. 1. Polycaprolactone derivatives from saccharides and cellulose. 2. Polycaprolactone derivatives from lignin. *7: Environmentally Compatible Polyurethanes Derived from Saccharides, Polysaccharids and Lignin. 1. Polyurethane derivatives from saccharides. 2. Polyurethanes derived from lignin. 3. Saccharides- and lignin-based hybrid polyurethane foams. *8: Bio- and Geocomposites Containing Plant Materials. 1. Biocomposites containing cellulose powder and wood meal. 2. Biocomposites containing coffee grounds. 3. Geocomposite. * Subject Index.