How to improve the heat resistance of polymer materials!?
◎Heat-resistant materials with increasing demand in fields such as electrical, electronic, optical components, and the automotive sector ◆ Technologies for improving heat resistance using various methods and approaches! ◆ Design guidelines for heat resistance improvement! ◆ Composite technologies such as organic-inorganic hybrids ◆ Control of polymer crystallization and enhancement of heat resistance ◆ Control of chemical structure and crosslinking structure ◆ Concepts of physical heat resistance and chemical heat resistance ◆ Relationship between glass transition temperature and molecular structure ◆ Molecular design considering the cohesion and rigidity of polymers ◆ Evaluation techniques for the heat resistance of polymer materials
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Publication Date: December 20, 2013 Price: 56,000 yen + tax Format: B5 size, 233 pages ISBN: 978-4-86502-050-2 *For detailed content, please download the catalog.*
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Chapter 1: High Heat Resistance through Organic-Inorganic Hybrid, Nanocomposites, and Composite Materials Section 1: High Heat Resistance of Composite Materials through Organic-Inorganic Hybrids Section 2: Improvement of Heat Resistance of Silicone through Organic-Inorganic Hybrids Section 3: Heat-Resistant Nanofibers Section 4: Heat Resistance of Composites with High Thermal Conductivity Fillers Section 5: Nanocomposite Transparent Thin Films Chapter 2: Control of Crystallization in Polymers and Improvement of Heat Resistance Chapter 3: High Heat Resistance of Various Resin Materials Section 1: Heat-Resistant Polyimides Section 2: Alicyclic Polyimides Section 3: High Heat-Resistant Polyamides Section 4: Epoxy Section 5: Polyurethane Section 6: Polybenzoxazine Section 7: High Molecular Weight Phenolic Resins Chapter 4: High Heat Resistance of Optical Materials and Films Section 1: Optically Transparent Resins Section 2: Cycloolefin Polymers Section 3: High Durability and High Heat-Resistant Hard Coat Films Section 4: High Heat-Resistant and High Gas Barrier Films Chapter 5: High Heat Resistance of Plant-Derived and Bioplastics Section 1: High Heat-Resistant Plant-Derived Plastics Section 2: Crystallization and Heat Resistance of Polylactic Acid Chapter 6: High Heat Resistance of Adhesives and Sealants Section 1: UV Adhesives Section 2: Sealants for Power Devices Chapter 7: Evaluation of Heat Resistance in Polymer Materials
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