ժҪ Studies were conducted on the interfacial microstructure of a steel/liquid aluminium and its evolution during the bonding rolling process. The effects of wetting time and rolling deformation on the diffusion layer and on the bonding strength were examined. By means of electron microscopy and electron probe analysis, it was found that the diffusion layer is mainly composed of FeAl3. For a steel temperature of 250 �� and an aluminium temperature of 850 ��, the diffusion layer was formed within 3 s, and the shear strength of the samples increased after 8 to 14 s. Although the interface was not damaged, it was deformed notably. For an aluminium temperature of 750 �� and a wetting time of 11 to 17 s, the shear strength of the interface remained high, but the interface was obviously broken during rolling, leading to reduced bonding strength.
Abstract��Studies were conducted on the interfacial microstructure of a steel/liquid aluminium and its evolution during the bonding rolling process. The effects of wetting time and rolling deformation on the diffusion layer and on the bonding strength were examined. By means of electron microscopy and electron probe analysis, it was found that the diffusion layer is mainly composed of FeAl3. For a steel temperature of 250 �� and an aluminium temperature of 850 ��, the diffusion layer was formed within 3 s, and the shear strength of the samples increased after 8 to 14 s. Although the interface was not damaged, it was deformed notably. For an aluminium temperature of 750 �� and a wetting time of 11 to 17 s, the shear strength of the interface remained high, but the interface was obviously broken during rolling, leading to reduced bonding strength.
XU Guang-ming;LI Bao-mian;CUI Jian-zhong. Interfacial Microstructure of Al-Sn-Pb Alloy/Steel During Liquid-Solid Bond Rolling[J]. �й������ڿ���, 2006, 1(4): 0-0.
XU Guang-ming;LI Bao-mian;CUI Jian-zhong. Interfacial Microstructure of Al-Sn-Pb Alloy/Steel During Liquid-Solid Bond Rolling. Chinese Journal of Iron and Steel, 2006, 1(4): 0-0.