Formation of bulk metallic glass in situ nanocomposite in (Cu50Zr43Al7)99Si1 alloy

The structure and mechanical properties of the bulk (Cu50Zr43Al7)99Si1 (at.%) rods with different diameters prepared by copper mold casting are investigated. It was found that the alloy with diameter of 2 mm has a fully glassy structure. The nanocrystals with the sizes ranging from 2 to 10 nm distributed in the glassy matrix for the alloy rod with a diameter of 3 mm, and the successful synthesis of the (Cu50Zr43Al7)99Si1 bulk metallic glass in situ nanocomposite was obtained. High compressive strength of 1969 MPa and limited plastic strain of less than 1% were obtained for the 2 mm (Cu50Zr43Al7)99Si1 glassy rod. For the 3 mm alloy rod, the compressive strength and plastic strain are 1835 MPa and 10%, respectively. The CuZr nanocrystalline phase precipitated from the 3 mm (Cu50Zr43Al7)99Si1 rod shows evident plastic deformation, which contributes to the high ductility of the (Cu50Zr43Al7)99Si1 bulk metallic glass in situ nanocomposites.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Formation of bulk metallic glass in situ nanocomposite in (Cu50Zr43Al7)99Si1 alloy by copper mold casting. ► The CuZr nanocrystals distributed in the glassy matrix with a diameter of 3 mm. ► The 3 mm rod exhibits high compressive strength of 1835 MPa and high ductility of 10%. ► The 2 mm rod has a fully glassy structure with limited plastic strain of less than 1%. ► The mechanisms for the formation and deformation of the BMG nanocomposite are discussed.