Al 1060/pure iron clad materials were produced by vacuum roll bonding.The effects of preheating temperature,vacuum roll reduction and initial thickness of the Al 1060 sheet on the metal interface and bonding strength were investigated.The interfacial microstructure was investigated and the mechanical properties of the joint were evaluated by shear testing.The bonding strength of the clad materials was generally enhanced by increasing the total reduction or preheating temperature,which caused the metal interface to flatten.No obvious reaction or diffusion layer was observed at the interface between Al 1060 and pure iron.The bonding strength increased with decreasing the initial thickness of the Al 1060 sheets.The Al 1060/pure iron clad materials were soldered with ZneAl alloy by using an ultrasonic-assisted method.Strong bonding of the Al1060 layer and Al 7N01 was realized without obvious Al 1060 dissolution or effect on the initial interface of Al 1060/pure iron clad materials by soldering at relatively low temperature. Al 1060 / pure iron clad materials were produced by vacuum roll bonding. The effects of preheating temperature, vacuum roll reduction and initial thickness of the Al 1060 sheet on the metal interface and bonding strength were investigated. The interfacial microstructure was investigated and the mechanical properties of the joint were evaluated by shear testing. bonding strength of the clad materials was generally enhanced by increasing the total reduction or preheating temperature, which caused the metal interface to flatten. No obvious reaction or diffusion layer was observed at the interface between Al 1060 and pure iron. The bonding strength increased with decreasing the initial thickness of the Al 1060 sheets. Al 1060 / pure iron clad materials were soldered with ZneAl alloy by using an ultrasonic-assisted method. Strong bonding of the Al 1060 layer and Al 7N01 was realized without obvious Al 1060 dissolution or effect on the initial interface of Al 1060 / pure iron clad materials by solde ring at relatively low temperature.