Polystyrene : synthesis, characteristics, and applications / Cole Lynwood, editor.
Material type:
TextSeries: Chemistry research and applications seriesPublisher: New York : Nova Publishers, [2014]Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781633213715
- 1633213714
- 668.4/233 23
- TP1180.S7
| Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
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Electronic-Books
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OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Includes bibliographical references and index.
Description based on print version record.
POLYSTYRENE: SYNTHESIS, CHARACTERISTICS AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Waste/Contaminated Polystyrene Recycling through Reverse Polymerization; Abstract; 1. Introduction; 2. Pyrolysis of Polystyrene Using Classical Heating; 2.1. Polystyrene Alone; 2.1.1. Autoclave Reactors; 2.1.2. Batch Reactors; 2.1.3. Fluidized Bed Reactors; 2.1.4. Special Mediums; 2.1.5. Other Pyrolysis of PS; 2.2. Pyrolysis of PS Mixed with Other Plastics; 2.2.1. Autoclave Reactors; 2.2.2. Batch Reactors.
2.2.3. Continuous Process Using a Fluidized Bed Reactors2.2.4. Pyrolysis of PS Mixed with Biomasses; 2.3. Catalytic Pyrolysis; 3. Microwave Assisted Pyrolysis; Conclusion; Acknowledgment; References; Chapter 2: Polystyrene-Based Amphiphilic Block Copolymers: Synthesis, Properties and Applications; Abstract; 1. Introduction; 2. Synthesis of Polystyrene-Based; Amphiphilic Block Copolymers; 2.1. Anionic Polymerization; 2.2. Nitroxide-Mediated Radical Polymerization (NMP); 2.3. Atom Transfer Radical Polymerization (ATRP); 2.4. Reversible Addition-Fragmentation Chain Transfer (RAFT)
3. Properties of Polystyrene-BasedAmphiphilic Block Copolymers; 3.1. Interfacial Properties; 3.2. Solution Rheology; 4. Applications; References; Chapter 3: Expanded Polystyrene: Thermo-Mechanical Recycling, Characterization and Application; Abstract; Expanded Polystyrene; History; Description; Methods for Manufacturing EPS; Basic Materials; Preparation of Expandable Polystyrene Beads; Manufacturing Process; Applications and Properties; Packaging; Application as a Construction Material; Other Applications; Consumption, Capacities and Recycling Rates; Common Methods for Recycling EPS.
Thermal-Mechanical Recycling of EPS and Its Composites with Wood FlourExperimental Methods; Materials; EPS thermo-mechanical recycling and composite preparation; Mechanical testing; Density and morphological study; Results and Discussion; EPS recycling; Mechanical properties; Impact strength; Density and void content; Morphology characteristics; Future Trends; Conclusion; References; Chapter 4: Gigaporous Polystyrene Microspheres and Their Applications in High-Speed Protein Chromatography; Abstract; 1. Introduction and Background; 2. Preparation of Gigaporous Polystyrene Microspheres.
2.1. POROS Microspheres2.2. Magnapore Microspheres; 2.3. Microspheres Prepared by Surfactant Reverse Micelles Swelling Method; 2.4. Double Emulsion-templated Microspheres; 3. Hydrophilization of Gigaporous Polystyrene Microspheres; 3.1. Physical Adsorption of Phenoxyl Agarose on Gigaporous PS Microspheres; 3.2. Chemical Grafting Poly (Vinyl Alcohol) (PVA) on Gigaporous PS Microspheres; 3.3. Chemical Coupling Saccharide on Gigaporous PS Microspheres; 4. Applications to Protein Separation; 4.1. Ion-Exchange Chromatography; 4.2. Immobilized-metal Affinity Chromatography (IMAC); Conclusion.
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