Interfaces crystallization viscoelasticity
Author(s)
Bibliographic Information
Interfaces crystallization viscoelasticity
(Advances in polymer science, 148)
Springer-Verlag, c1999
Available at 22 libraries
Note
Includes bibliographical references and indexes
Description and Table of Contents
Description
Epoxy resins are regarded as thermosetting resins and have found various c- mercial applications after crosslinking with adequate curing agents [1–3]. H- ever, some epoxy resins have been used as thermoplastic resins without curing agents. Figure 1 shows the applications of epoxy resins that are classi?ed to three categories: thermosets in combination with curing agents, thermoplastics wi- out curing agents, and raw materials for modi?cation. The use in thermoplastics is not popular compared with the two other applications. Typical thermoplastic applications are found in stabilizers for vinyl resins, toners for copying - chines, ?re retardants for engineering plastics, and sizing material for glass or carbon ?bers. The epoxy resin most frequently used is the oligomer of the diglycidyl ether of bisphenol-A (DGEBA) whose chemical structure is shown below [1–3]. The DGEBA is composed of linear molecules with different molecular weights according to the variation of the repeated number (n) in the structural formula.
Table of Contents
Interfacial Phenomena in Thin Polymer Films: Phase Coexistence and Segregation.- Crystallization in Block Copolymers.- Viscoelastic Behavior of Epoxy Resins Before Crosslinking.
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