Summarizing the significant progress made in synthesis, structural design, alloy mixing and forming devices, structural analysis, and viscoelasticity measurement, and explaining it in an easy-to-understand manner for those outside the field.
**[Supervision]** Akio Imai / Fellow of the Polymer Society **Chapter 1: What are Polymer Alloys** **Chapter 2: Morphology** **Section 1: Control of Physical Properties of Polymer Alloys** **Section 2: Rheological and Mechanical Properties of Polymer Alloy Blends** **Section 3: Control of Structure and Properties of Polymer Alloys** **Section 4: Control of Polymer Compatibility Using Porous Metal-Organic Frameworks (MOFs)** **Section 5: Viscoelastic Effects in the Formation of Phase-Separated Structures of Polymer Alloys** **Section 6: Localization and Control of a Third Component in Immiscible Polymer Blends** **Chapter 3: Compatibilizers / Compatibilizing Agents** **Section 1: What are Compatibilizers / Compatibilizing Agents?** **Section 2: Characteristics and Applications of Compatibilizers for Polymer Alloys** **Section 3: PC/ABS Blends Using Reactive Additives** **Section 4: Chiral Polymer Blends Using Liquid Crystal Electrochemical Polymerization** **Chapter 4: Compounding Techniques and Extrusion Molding Techniques** **Section 1: Polymer Alloy Formation Equipment Centered on Twin-Screw Extruders** **Section 2: Novel Nanocomposite Materials via High Shear Processing Techniques** **Section 3: Energy-Saving Extruders Using Visualization Analysis Systems** **Section 4: Fluoropolymer / Fluoropolymer Oligomer Blends Using High-Pressure Fluid Compounding Methods** **Chapter 5: Reactive Processing**
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basic information
Chapter 1: Reactive Processing Technology Section 1: Reactive Blending Materials of PC/PBAT/ABS System and Property Modification Chapter 6: Technological Trends and Functional Enhancement Section 1: Polymer Alloys of Heat-Resistant Polymer Polybenzoxazine Section 2: Strengthening and Toughening of Acrylic Rubber through Blending with Fluorine-Based Crystalline Polymers Section 3: Toughening through Polymer Blends Section 4: Flame Retardant Formulation Design Chapter 7: Bioplastics Section 1: Property Evaluation of Plant-Derived Resin Composites Section 2: Bioplastic/LTI Blends using Crosslinked Diphenylamine-Based Polymers Section 3: Polymer Blends of Polyoxymethylene and Polylactic Acid Section 4: PS/PLA Alloys Section 5: Plant Biomass/Polymer Complexes through Reactive Processing Chapter 8: Analytical Methods Section 1: Transmission Electron Microscopy Analysis of Polymer Alloys and Filler-Containing Polymers Section 2: Three-Dimensional Electron Microscopy Section 3: Nano Mechanical Property Analysis using Atomic Force Microscopy Section 4: Mechanism of Formation of Mesoscale Ordered Structures in Non-Miscible Polymer Blends during Dissipation Processes Chapter 9: Fourth Generation Polymer Alloys
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Since the beginning of the 21st century, there have been significant advancements in various fields such as the formation of polymer alloys under high shear forces or in fine reaction fields, visualization of dispersion states at the nanoscale (nm), and the progress of precision polymerization of block copolymers composed of novel chemical species segments, including synthesis, structural design, alloy mixing and forming devices, structural analysis, and viscoelastic measurements. Additionally, the utilization of plant-derived resins and the emergence of unique physical properties through the dispersion of nanosized block (graft) copolymers in matrices have led to developments in applications that differ from traditional fields. As a result, the traditional concepts of polymer alloys, such as compatibility/miscibility, are being re-evaluated. Furthermore, without much awareness of the historical development of polymer alloys, researchers and engineers from different fields are also engaging in research themes related to polymer alloy formation, leading to a broad range of developments. It is not easy to grasp the overall trends of these achievements, which has led to the creation of a guidebook for this purpose. This book is structured in such a way that readers can start from any section depending on their expertise and interests. It is hoped that it will serve as a reference for research, technological development, and product (business) concepts.
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S&T Publishing publishes technical books aimed at researchers and engineers.
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