Journal of Materials Research and Technology (Jul 2024)
Effect of interface laser texture on the bonding property of co-extruded laminate with dissimilar DP600/AA1060 alloys
Abstract
Steel-aluminum laminates show promise in industrial manufacturing, yet their utilization is limited by unstable interface bonding. This study investigates the influence of laser texturing on the interface bonding properties of DP600/AA1060 obtained through co-extrusion. White-light interference profilometry (WLIP) and MATLAB algorithms are used to quantify different surfaces. A model is established to predict the shear load with different process angles. Furthermore, energy dispersive spectroscopy (EDS), scanning electron microscope (SEM) and X-ray diffraction (XRD) are utilized to examine the microstructure of interface fractures and DP600/AA1060 alloys. Notably, the laser texturing process (LTP) significantly enhances the interface bonding strength of the DP600/AA1060, yielding a 37% increase in maximum shear strength compared to the original sample. The prediction holds true for the process angle in the range of 0°–45° but failed between 45° and 90° due to the occurrence of tensile/compressive stress in the laser-textured area, leading to unstable bonding caused by oxides and alloy particles. However, the laser-textured surface of DP600 enhances mechanical interlocking and increases the number of micro-protrusions, thereby strengthening the interface bonding and improving the mechanical properties of co-extruded laminates.
