LAUSR

Aluminum–aluminum bimetal was prepared by spray-formed Al22Si alloy and ZL102 through extrusion process under solid–solid state, semisolid state and solid–liquid state. The microstructures and bonding strength of the bimetallic interface were studied, and the fracture behaviors of different bimetallic states were compared. The results showed that perfect metallic bond is produced through the semisolid extrusion process. The bimetal through solid–solid extrusion process is a large number of particles extruding through gaps among the cracked oxide layers, thus realized the metallurgical combination with the virgin metal. The process of semisolid extrusion is to break the oxide film under the temperature and pressure to achieve the bimetallic bonding. Besides, the hard particles wrapped by liquid metal can also enhance bonding strength. The tensile strength of bimetal fabricated by semisolid extrusion shows more promising results than that made by solid–solid combination and solid–liquid combination; the tensile strength improved from 83.3 to 120.5 MPa, an increase of about 45%. The process presented in this study provides a promising and effective approach for achieving Al22Si/Zl102 bimetal with high-quality metallurgical bonded interface.