Abstract
Aluminum matrix composite SiCp/A356 was welded by half-transient liquid Phase diffusion welding (HTLPDW) with a Cu interlayer. The effects of welding parameters and interlayer thickness on the properties of the welded joint were investigated, and the optimal welding parameters were subsequently put forward. The relationship between the tensile strength of the joint and the microstructure was studied by analyzing the microstructure of joint using a scanning electron microscope (SEM) and an electron probe micro-analysis (EPMA). Results confirmed the success of welding aluminum matrix composite SiCp/A356 utilizing HTLPDW method with a Cu interlayer. Shorter welding time was a prominent characteristic of HTLPDW as compared with conventional transient liquid phase (TLP) diffusion welding. Furthermore, its welded joints had a tensile strength almost 72% of its parent matrix composites, evidently signifying the suitable application of half-transient liquid phase diffusion welding in welding composite engineering structures.
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