Preface |
List of Contributors |
High Performance Polymers: An Overview / V. Mittal1: |
Introduction / 1.1: |
Poly (ether amide) and Poly(ether amide-imide) / 1.2: |
Poly(arylene ether) / 1.3: |
Benzoxazine Polymers / 1.4: |
Poly(ether ether ketone) (PEEK) / 1.5: |
Polytriazole / 1.6: |
Hyperbranched Conjugated Polymers / 1.7: |
Alternating Copolymers / 1.8: |
References / 1.9: |
Synthesis and Properties of Polyoxadiazoles / Dominique de Figueiredo Gomes2: |
Synthesis of Polyoxadiazoles in Poly(phosphoric acid) / 2.1: |
Thermal and Mechanical Properties of Polyoxadiazoles / 2.3: |
Application Fields / 2.4: |
Conjugated Polymers Based on Benzo[l,2-b:4,5-b'] dithiophene for Organic Electronics / Huaxing Zhou ; Wei You2.5: |
General Synthetic Methods for BDT Monomers and Polymers / 3.1: |
Application of BDT-Based Polymers in OFET and PSC / 3.3: |
Outlook / 3.4: |
Polysulfone-Based Ionomers / Cristina Iojoiu ; Rakhi Sood3.5: |
Polysulfone Backbone and Selection of the Ionic Function / 4.1: |
Lonomer Synthesis and Characterization / 4.3: |
Conclusion / 4.4: |
High-Performance Processable Aromatic Polyamides / S Banerjee ; S Maji4.5: |
Monomers / 5.1: |
Polymerization / 5.3: |
Major Problem with Aromatic Polyamides / 5.4: |
Approaches to Processable Polyamides / 5.5: |
Processable Linear Aromatic Polyamides / 5.6: |
Processable Hyperbranched Aromatic Polyamides / 5.7: |
Properties / 5.8: |
Applications / 5.9: |
Phosphorus-Containing Polysulfones / Oana Petreus ; Tudor Petreus5.10: |
Synthesis of Phosphorus Containing Polysulfones / 6.1: |
Properties of Phosphorus-Containing Polysulfones (P-PSF) / 6.3: |
High Performance Applications of Phosphorus-Containing Polysulfones / 6.4: |
Synthesis and Characterization of Novel Polyimides / Atsushi Morikawa6.5: |
Synthesis of Polyimides / 7.1: |
Properties of Aromatic Polyimides / 7.3: |
Conclusions / 7.4: |
The Effects of Structures on Properties of New Polytriazole Resins / Farong Huang ; Liqiang Wan ; Lei Du ; YanhongHu ; Yanpeng E ; Yujing Li7.5: |
The Preparation of Polytriazole Resins / 8.1: |
Reactivity of Crosslinkable Polytriazole Resins / 8.3: |
Glass Transition Temperatures of Polytriazole Resins / 8.4: |
Mechanical Properties of Polytriazole Resins / 8.5: |
Dielectric Properties of Polytriazole Resins / 8.6: |
Thermal Stabilities of Polytriazole Resins / 8.7: |
Acknowledgement / 8.8: |
High Performance Fibers / Mehdi Afshari ; Richard Kotek ; Peng Chen8.10: |
PIPD or "M5" Rigid Rod / 9.1: |
"Zylon" PBO Rigid Rod Polymer Fibers / 9.2: |
Aromatic Polyamide-Rigid Rod "Kevlar" Poly(p-Phenylene Terephthalamide) Fibers / 9.3: |
Spectra, Dyneema UHMWPE Flexible Polymer Chain / 9.4: |
Carbon Fibers / 9.5: |
Advances in Improving Performance of Conventional Fibers / 9.6: |
Acknowledgments / 9.7: |
Synthesis and Characterization of Poly (aryl ether ketone) Copolymers / G Wang9.9: |
General Synthetic Methods of PAEK Copolymers / 10.1: |
Synthesis and Characterization of Structural Poly (aryl ether ketone) Copolymers / 10.3: |
Synthesis and Characterization of Liquid Crystalline Poly (aryl ether ketone) Copolymers / 10.4: |
Synthesis and Characterization of Poly (aryl ether ketone) Copolymers with Pendent Group / 10.5: |
Synthesis and Characterization of poly (aryl ether ketone) copolymers with Containing 2,7 -Naphthalene Moieties / 10.6: |
Liquid Crystalline Thermoset Epoxy Resins / P. Kannan ; P. Sudhakara10.7: |
Liquid Crystals / 11.1: |
Liquid Crystalline Thermosets Based on Epoxy Resins / 11.2: |
Synthesis and Physical Properties of LCERs / 11.3: |
Index / 11.4: |
Preface |
List of Contributors |
High Performance Polymers: An Overview / V. Mittal1: |