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" Biodegradable green composites / "
edited by Susheel Kalia
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BL
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| Record Number
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662349
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dltt
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| Title & Author
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Biodegradable green composites /\ edited by Susheel Kalia
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| Page. NO
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1 online resource (xv, 345 pages)
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| ISBN
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9781118910917
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: 1118910915
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: 9781118911068
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: 1118911067
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: 9781118911150
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: 1118911156
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9781118911099
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| Bibliographies/Indexes
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Includes bibliographical references and index
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| Contents
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Biodegradable Green Composites / Sreerag Gopi, Anitha Pius, Sabu Thomas -- Introduction -- Biodegradable Polymers -- Starch -- Cellulose -- Chitin and Chitosan -- Proteins -- Nanofillers for Composites -- Cellulose-Based Nanofillers -- Carbon Nanotube -- Clay -- Functional Fillers -- Nanocomposites from Renewable Resources -- Cellulose Nanocomposites -- CNT Nanocomposites -- Clay Nanocomposites -- Functional Nanocomposites -- Processing of Green Composites -- Applications -- Packaging -- Electronics, Sensor, and Energy Applications -- Medicinal Applications -- Conclusion -- References -- Surface Modification of Natural Fibers Using Plasma Treatment / Danmei Sun -- Introduction -- Natural Fiber Materials and their Properties -- Conventional Modification Methods and Drawbacks -- Plasma Environment and the Advantages of Plasma Surface Modification -- Mechanisms of Plasma Treatment and Types of Plasma Machines -- Principle of Plasma Surface Modification -- Interactive Mechanisms between Plasma and Substrates -- Types of Plasma Treatment Systems -- Effects and Applications of Plasma Treatment -- Surface Morphology and Chemical Composition Change -- Improved Hydrophilicity and Efficiency in Aqueous Processes -- Improved Hydrophobicity -- Mechanical Properties Affected by Plasma Treatment -- Medical Applications of Plasma Treatment -- Plasma-Modified Fibers in Polymer Composites -- Other Areas of Applications -- Conclusions and Industrial Implications -- References -- Reinforcing Potential of Enzymatically Modified! Natural Fibers / Levent Onal, Yekta Karaduman -- Introduction -- Enzymes -- A Brief History -- Classification and Nomenclature -- Enzyme Structure -- Enzymatic Catalysis -- Natural Fibers as Enzyme Substrates -- Physical Properties of Lignocellulosic Fibers -- Chemical Properties and Composition of Lignocellulosic Fibers -- Cellulose -- Hemicellulose -- Lignin -- Pectin -- Other Aromatic Compounds -- Fats, Waxes, and Lipids -- Types of Enzymes Used in Natural Fiber Modification -- Cellulases -- Xylanases -- Pectinases -- Laccases -- Effect of Enzymatic Treatment on the Structure and Properties of Natural Fibers -- Polymer Composites Reinforced with Enzymatically Modified Natural Fibers -- Enzyme-Assisted Biografting Methods -- Conclusions -- References -- Recent Developments in Surface Modification of Natural Fibers for their use in Biocomposites / Jaspreet Kaur Bhatia, Balbir Singh Kaith, Susheei Kalia -- Introduction -- Biocomposites -- Classification: Biomass Derived and Petroleum-Derived Matrix -- Advantage over Traditional Composites -- Natural Fiber: Structure and Composition -- Surface Modification of Natural Fibers -- Silylation, Esterification, and other Surface Chemical Modifications -- Noncovalent Surface Chemical Modifications -- Cationization -- Polymer Grafting -- TEMPO-Mediated Oxidation -- Green Modification -- Biocomposites: Recent Trends and Opportunities for the Future -- Biodegradability of Biocomposites -- Conclusions -- References -- Nanoceflulose-Based Green Nanocomposite Materials / Qi Zhou, Núria Butchosa -- Introduction -- Nanocelluiose -- Cellulose Nanocrystals -- Cellulose Nanofibrils -- Bacterial Cellulose -- Composite Matrices -- Cellulose and Cellulose Derivatives -- Hemicelluloses and other Polysaccharides -- Starch -- Chitin and Chitosan -- Proteins -- Polylactic Acid and Poly(ε-Caprolactone) -- Inorganic Nanoparticles -- Composite Properties -- Thermal and Mechanical Properties -- Barrier Properties -- Antimicrobial Properties -- Optical Properties -- Conclusions -- References -- Poly(Lactic Acid) Hybrid Green Composites / Mahbuh Hasan, Azman Hassan, Zainoha Zakaria -- Introduction -- Manufacturing Techniques of PLA Hybrid Green Composites -- Melt Mixing/Blending -- Extrusion/Injection Molding -- Other Techniques -- Properties of PLA Hybrid Green Composites -- Mechanical Properties -- Tensile Properties -- Flexural Properties -- Impact Strength -- Dynamic Mechanical Properties -- Thermal Properties -- Thermogravimetric Analysis -- Differential Scanning Calorimetry -- Surface Morphology -- Electrical Properties -- Applications of PLA Hybrid Green Composites -- Conclusions -- References -- Lignin/Nanolignin and their Biodegradable Composites / Anupama Rangan, M.V. Manjula, K.G. Satyanarayana, Reghu Menon -- Introduction -- Renewable Bioresources-Sustainability and Biodegradability Issues -- Nanotechnology and Application of Nanotechnology (Specifically for Cellulose and Lignin) -- Lignin -- Structure, Chemical Nature, Complexity, and Linkage Heterogeneity -- Types, Structure, Properties, and Uses of Modified/Processed Lignin -- Kraft Lignin -- Soda Lignin -- Lignosulfonates -- Organosolv Lignin -- Hydrolysis Lignin -- Nanolignin and Methods of Preparation of Nanolignin -- Precipitation Method -- Chemical Modification Method -- Electrospininng Followed by Surface Modification -- Freeze Drying Followed by Thermal Stabilization and Carbonization -- Supercritical Antisolvent Technology -- Chemomechanical Methods -- Nanolignin by Self-Assembly -- Template-Mediated Synthesis of Lignin-based Nanotubes and Nanowires -- Characterization of Lignin Nanoparticles -- Microscopy -- Thermal Analysis -- X-Ray Diffraction -- Other Methods -- Lignin Composites/Nanolignin-Based "Green" Composites -- Lignin-based Thermoplastic Polymer Composites -- Rubber-based Lignin Composites -- Lignin-reinforced Biodegradable Composites -- Lignin-reinforced Foam-based Composites -- Lignin-based Composite Coatings -- Synthesis of Lignin-PLA Copolymer Composites -- Nanolignin-based "Green" Composites -- Potential Applications of Lignin/Nanolignin -- Perspectives and Concluding Remarks -- Acknowledgments -- References -- Web Site References -- Starch-Based "Green" Composites / K.G. Satyanamyana, V.S. Prasad -- Introduction -- Starch -- Thermoplastic Starch -- Starch Nanocrystals -- Structure and Properties of Starch/TPS -- Starch-Based Composites -- Processing Techniques/Methods -- Processing of Starch-based Microcomposites -- Processing of Starch-based Nanocomposites -- Structure and Properties of Starch-Polymer Systems (Blends/Composites) -- Starch-Polymer Systems -- Starch-Natural Materials-based "Green" Composites -- Starch-based Nanocomposites -- Starch Nanoparticles in Composites -- Applications -- Perspectives -- Concluding Remarks -- Acknowledgments -- References -- Green Composite Materials Based on Biodegradable Polyesters / Pramendra Kumar Bajpai -- Introduction -- Fabrication Techniques for Green Composites -- Hand Lay-Up Fabrication Technique -- Compression Molding -- Injection Molding Fabrication Technique -- Resin Transfer Fabrication Technique -- Pultrusion Fabrication Technique -- Processing of Green Composites Through Microwave Heating -- Application of Green Composite -- Concluding Remark 309 References -- Applications of Green Composite Materials / Koronis Georgios, Arlindo Silva, Samuel Furtado -- Introduction -- Green Composite Materials -- Reinforcement -- The Matrix -- Consumer Products -- Biomedical Applications -- Packaging -- Transportation Industry -- Construction -- Energy Industry -- Sports and Leisure Industry -- Boat Hulls and Canoes -- Snowboards/Skis and Surfboards -- Toys -- Musical Instruments -- Conclusions -- References
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| Subject
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Composite materials.
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| Subject
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Green products.
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| Dewey Classification
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620.1/18
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| LC Classification
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TA418.9.C6B5535 2016
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| Added Entry
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Kalia, Susheel
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Ohio Library and Information Network.
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