N.S Sarkissyan scite author profile

The fibre/matrix interface in fibrous composites with brittle fibres can play a synergetic role in developing creep resistance of the composites. Increasing the interface strength, which is accompanied with a better fibre/matrix contact, results firstly in a decrease in the fibre critical length, which enhances the fibre strength as a result of the scale effect, and secondly in an increase in the characteristic fibre strength as a result of the healing of defects on the fibre surface. Such behaviour of the fibres is the most important argument in favour of producing heat-resistant metal matrix composites with high interface strength. An additional argument is the stability of such an interface under variable loading. It is shown that oxide fibres in Ni-base matrices can be sufficiently strong to provide Ni-base composites with high creep resistance up to a temperature of at least 1150 C.

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High-temperature creep of sapphire-fibre/titanium-aluminide-matrix composites

Mileiko

Povarova

Коржов

et al. 2001

Scripta Materialia

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Structure and properties of boron/aluminium composites

Mileiko

Sarkissyan

Serebryakov

et al. 1994

Composites Science and Technology

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Oxide/oxide composites with fibres produced by internal crystallisation

Kolchin

Кийко

Sarkissyan

et al. 2001

Composites Science and Technology

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N.S Sarkissyan

Oxide-fibre/nickel-based matrix composites—part I: fabrication and microstructure

Oxide fibres in a nickel-base matrix—do they degrade or become stronger?

High-temperature creep of sapphire-fibre/titanium-aluminide-matrix composites

Structure and properties of boron/aluminium composites

Oxide/oxide composites with fibres produced by internal crystallisation

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