Journal
MRS BULLETIN
Volume 28, Issue 6, Pages 445-448Publisher
MATERIALS RESEARCH SOCIETY
DOI: 10.1557/mrs2003.126
Keywords
epoxy adhesives; fracture; microstructure; polymers; structural adhesives; toughening
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There are many advantages that polymeric adhesives can offer compared with the more traditional methods of structural joining such as bolting, brazing, welding, and mechanical fastening, and epoxynadhesives represent the most common type of structural adhesive. When polymerized, epoxy adhesives are amorphous and highly ross-linked materials, and this microstructure, and this microstructure results in many useful properties for structural engineering applications, such as a high modulus and failure strength, loe creep, and by careful formulation, good performance at elevated temperatures. However, the structure o fsuch thermosetting adhesives also generally leads to one highly undesirable property: they are relatively brittle materials, with poor resistance to crack initiation and growth. Nevertheless, the incorporation of a second phase of dispersed rubbery particles into the epoxy polymer can greatly increase their toughness without significantly impairing their other desirable engineering properties. Thus, rubber-toughened epoxy adhesives can be used, for example, in applications where very high impact resistance is required for the bonded joint.
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