Title of article
Anisotropic mechanical properties of amorphous Zr-based foams with aligned, elongated pores Original Research Article
Author/Authors
Marie E. Cox، نويسنده , , David C. Dunand، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2013
Pages
12
From page
5937
To page
5948
Abstract
Equal-channel angular extrusion is used to consolidate a blend of amorphous Zr56.3Nb5.1Cu15.6Ni12.9Al10.0 and crystalline W powders into dense composites. Chemical dissolution of the crystalline phase results in amorphous foams with elongated pores, aligned at a 22–28° angle with respect to the extrusion direction, whose compressive properties are studied for various orientations. As the angle between the pore long direction and the applied stress direction increases from 0° to 68°, there is a significant decrease in loading stiffness and peak stress, as expected from predictive analytical models; however, the observed increase in stiffness and peak stress observed when the pores are oriented 90° to the direction of loading is not predicted by all of the models. Foams with pores aligned 24–68° to the direction of loading show increased plastic bending in individual walls and accumulation in microscopic damage without failure, leading to increased compressive ductility and absorbed energy over other orientations.
Keywords
Metallic foam , Bulk metallic glass , Zirconium-based glassy alloy , Porous material , Equal channel angular press
Journal title
ACTA Materialia
Serial Year
2013
Journal title
ACTA Materialia
Record number
1147218
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