M.P. Metelnick scite author profile

The design procedure for low melting point alloy composites reinforced with melt-spun intermetallic ribbons for elevated temperature applications is presented. Long·range ordered Ni 3A1 intermetallic is selected as a candidate reinforcement by virtue of its ease of being ductilized by boron and an increase in yield strength with increasing temperature. A certain composition of Ni 3A1 alloyed with cobalt, tantalum, hafnium and boron for the maximum reinforcing effect is formulated. The rule of mixtures calculations of elastic modulus and yield strength are performed for AI-Si and Mg-AI matrices. The results of the structural investigation of a model composite system consisting of a tt 00 AI matrix with embedded Ni7SAl23Zr181 (a1.%) ribbons, obtained by casting, are presented. Lonq-terrn stability of the reinforcing ribbons is investigated by annealing of "as-cast" specimens at elevated temperatures up to 100 h.

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As-Cast Structure and the Effects of Temperature on an Al-Si Metal Matrix Composite Reinforced with Ni3Al-Type Ribbons

Metelnick¹,

Varin²,

Wroński³

1992

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INTERFACIAL ZONES IN ALUMINUM MATRIX COMPOSITE CONTAINING Ni3Al-TYPE INTERMETALLIC RIBBONS

Metelnick

Varin

Wroński³

1989

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Effects of Elevated Temperature on an Aluminium Metal-Matrix Composite Containing Ni3Al-Type Ribbons

Metelnick¹,

Varin²

1991

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M.P. Metelnick

Structure of As-cast aluminum matrix composite containing Ni3AI-type intermetallic ribbons

Metal Matrix Composites Reinforced With Intermetallic Ribbons

As-Cast Structure and the Effects of Temperature on an Al-Si Metal Matrix Composite Reinforced with Ni3Al-Type Ribbons

INTERFACIAL ZONES IN ALUMINUM MATRIX COMPOSITE CONTAINING Ni3Al-TYPE INTERMETALLIC RIBBONS

Effects of Elevated Temperature on an Aluminium Metal-Matrix Composite Containing Ni3Al-Type Ribbons

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