The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-reinforced composites is investigated, based on epoxy matrixes with various failure strains. Finite element micromech. analyses are used to compare the deformation of the matrix in fiber-reinforced plastics with the deformation in rubber-toughened plastics. The stress situation leads to a brittle behavior in the former and favors a high failure strain in the latter with ductile matrixes. It is expected that the combination of rubber coated fibers with a ductile matrix yields composites with high transverse failure strain
The time-dependent failure behaviour of off-axis loaded composites is investigated, assuming that fr...
The mechanical behavior of quasi-isotropic and unidirectional epoxy-matrix carbon-fiber laminated co...
The effects of loading rate and confining pressure on transverse mechanical response of unidirection...
The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-rein...
Abstract. The time-dependent failure behaviour of transversely loaded composites is investigated, as...
Transverse failure is one of the most important failure modes in polymer composites. The phenomenon ...
AbstractThe mechanical behavior of uniaxially fiber-reinforced composites with a ductile rubber-toug...
The time-dependent failure behaviour of transversely loadedcomposites is investigated, assuming that...
Transverse tensile strength of unidirectional (UD) composites plays a key role in overall failure of...
A novel test configuration has been developed to induce combined stress-states of in-plane longitudi...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol. % of carbon fibers embedde...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol.% of carbon fibers embedded...
This thesis investigates the failure behaviour of the matrix constituent found in composite material...
The influence of the fibre volume fraction and test-temperature on the transverse tensile properties...
The influence of the loading path on the failure locus of a composite lamina subjected to transverse...
The time-dependent failure behaviour of off-axis loaded composites is investigated, assuming that fr...
The mechanical behavior of quasi-isotropic and unidirectional epoxy-matrix carbon-fiber laminated co...
The effects of loading rate and confining pressure on transverse mechanical response of unidirection...
The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-rein...
Abstract. The time-dependent failure behaviour of transversely loaded composites is investigated, as...
Transverse failure is one of the most important failure modes in polymer composites. The phenomenon ...
AbstractThe mechanical behavior of uniaxially fiber-reinforced composites with a ductile rubber-toug...
The time-dependent failure behaviour of transversely loadedcomposites is investigated, assuming that...
Transverse tensile strength of unidirectional (UD) composites plays a key role in overall failure of...
A novel test configuration has been developed to induce combined stress-states of in-plane longitudi...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol. % of carbon fibers embedde...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol.% of carbon fibers embedded...
This thesis investigates the failure behaviour of the matrix constituent found in composite material...
The influence of the fibre volume fraction and test-temperature on the transverse tensile properties...
The influence of the loading path on the failure locus of a composite lamina subjected to transverse...
The time-dependent failure behaviour of off-axis loaded composites is investigated, assuming that fr...
The mechanical behavior of quasi-isotropic and unidirectional epoxy-matrix carbon-fiber laminated co...
The effects of loading rate and confining pressure on transverse mechanical response of unidirection...
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