Failure of discretely reinforced boron-aluminum composite

Previously abstracted from original as item 8909-4.4-0364Y. Strength characteristics of boron fiber reinforced Al (AD1) are studied as affected by the structure of the fiber/matrix interface. It is shown that effects of optimal discrete reinforcement of B fiber reinforced Al may be realized, to a ce...

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Veröffentlicht in:	Strength of materials 1989-01, Vol.21 (1), p.52-55
Hauptverfasser:	Ustinov, L M, Verkhovskii, L A
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Sprache:	eng
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container_title	Strength of materials
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creator	Ustinov, L M Verkhovskii, L A
description	Previously abstracted from original as item 8909-4.4-0364Y. Strength characteristics of boron fiber reinforced Al (AD1) are studied as affected by the structure of the fiber/matrix interface. It is shown that effects of optimal discrete reinforcement of B fiber reinforced Al may be realized, to a certain extent, if changing purposefully structural characteristics of the interface, such as density of interphase bonds theta . In the case when theta = 0.340, the effect of discrete reinforcement is the largest both as regards the failure work and elongation, if the composite strength remains relatively high. Failure work of discrete B reinforced Al is five times higher than that of the continuously reinforced material, but relative elongation reaches approx 10%. 3 ref.--X-ref.
doi_str_mv	10.1007/BF01529100
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Strength characteristics of boron fiber reinforced Al (AD1) are studied as affected by the structure of the fiber/matrix interface. It is shown that effects of optimal discrete reinforcement of B fiber reinforced Al may be realized, to a certain extent, if changing purposefully structural characteristics of the interface, such as density of interphase bonds theta . In the case when theta = 0.340, the effect of discrete reinforcement is the largest both as regards the failure work and elongation, if the composite strength remains relatively high. 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title	Failure of discretely reinforced boron-aluminum composite
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