Interlaminar Effects in Fiber-Reinforced Plastics-A Review
- 1 January 1975
- journal article
- review article
- Published by Taylor & Francis in Polymer-Plastics Technology and Engineering
- Vol. 5 (1) , 23-53
- https://doi.org/10.1080/03602557508063092
Abstract
The two-phase nature of a fiber-reinforced polymer gives rise to a multiplicity of possible failure modes [1,2]. The mode of failure depends not only upon the intrinsic fiber and resin properties, but also upon the interphase or interlaminar properties [3]. Thus we find that composite systems with essentially the same component, i.e., fiber and matrix, properties can exhibit different tensile [4], compressive [2], flexural [4], fatigue [5], and fracture [6] behaviors due to varying interlaminar properties.Keywords
This publication has 44 references indexed in Scilit:
- The effects of adverse environmental conditions on the resin-glass interface of epoxy compositesComposites, 1973
- Cationic Silane Coupling Agents for ThermoplasticsPolymer-Plastics Technology and Engineering, 1973
- The fracture toughness of fibre compositesComposites, 1972
- Adhesion Through Silane Coupling AgentsThe Journal of Adhesion, 1970
- Bond degradation by liquidsComposites, 1970
- Fracture Processes in Fiber Composite MaterialsPublished by ASTM International ,1969
- Measurement of the Fiber-Polymer Matrix Interfacial StrengthPublished by ASTM International ,1969
- Effect of Water on Glass Fiber-Resin BondsPublished by ASTM International ,1969
- Interfacial Bonding in Graphite Fiber-Resin CompositesPublished by ASTM International ,1969
- Glass‐resin joint strength and their effect on failure mechanisms in reinforced plasticsPolymer Engineering & Science, 1966