Factors which control the strength and toughness of a fibre-reinforced composite in terms of the role of interfacial parameters such as the interfacial shear strength, the interfacial coefficient of friction and the matrix shrinkage pressure are reviewed. Techniques for determining the interfacial parameters, the stress distribution along the embedded fibre, and the mode of failure of the pull-out tests utilized in these techniques are considered. © 1992 Chapman & Hall.link_to_subscribed_fulltex
In this research, the interface between natural fibres and thermoplastic matrices is studied, in whi...
The mechanical behavior of fiber-reinforced ceramic composites is closely related to their interfaci...
A modified fiber pullout technique has been developed which allows direct experimental evaluation of...
Several experimental and theoretical methods developed to evaluate the interfacial properties of fib...
It is shown that the interfacial parameters of a composite system which include the interfacial shea...
Effects of various geometrical and physical factors, as well as the method of data reduction (analys...
Metal-matrix composites are gaining widespread applications in the industry. However, the developmen...
The behaviour of brittle matrix reinforced-composites can be affected by the mechanical properties o...
There has been a rapid growth in the development and application of fibre-reinforced thermoplastic p...
Physical adhesion was experimentally determined by measuring contact angles with different liquids o...
Synthetic fibre reinforced polymer (FRP) composite materials have been widely used in engineering fi...
The development of single fibre pull-out and microbond tests for characterising interfacial strength...
The feasibility of developing a high strength high toughness Kevlar 29 fibre reinforced nylon 66 com...
Many elegant techniques have been developed for the quantification of composite micro-mechanical par...
Synthetic fibre reinforced polymer (FRP) composite materials have been widely used in engineering fi...
In this research, the interface between natural fibres and thermoplastic matrices is studied, in whi...
The mechanical behavior of fiber-reinforced ceramic composites is closely related to their interfaci...
A modified fiber pullout technique has been developed which allows direct experimental evaluation of...
Several experimental and theoretical methods developed to evaluate the interfacial properties of fib...
It is shown that the interfacial parameters of a composite system which include the interfacial shea...
Effects of various geometrical and physical factors, as well as the method of data reduction (analys...
Metal-matrix composites are gaining widespread applications in the industry. However, the developmen...
The behaviour of brittle matrix reinforced-composites can be affected by the mechanical properties o...
There has been a rapid growth in the development and application of fibre-reinforced thermoplastic p...
Physical adhesion was experimentally determined by measuring contact angles with different liquids o...
Synthetic fibre reinforced polymer (FRP) composite materials have been widely used in engineering fi...
The development of single fibre pull-out and microbond tests for characterising interfacial strength...
The feasibility of developing a high strength high toughness Kevlar 29 fibre reinforced nylon 66 com...
Many elegant techniques have been developed for the quantification of composite micro-mechanical par...
Synthetic fibre reinforced polymer (FRP) composite materials have been widely used in engineering fi...
In this research, the interface between natural fibres and thermoplastic matrices is studied, in whi...
The mechanical behavior of fiber-reinforced ceramic composites is closely related to their interfaci...
A modified fiber pullout technique has been developed which allows direct experimental evaluation of...