Yanlong Ma scite author profile

The 5052 aluminium alloy and 304 stainless steel were successfully joined by cutting-assisted welding-brazing (CAWB) method without using flux. Dual-scale interfacial structures were achieved by manipulating the cutting tool profile. Results indicated that the macro-scale interfacial structure was produced at the joint interface when the taper step-shape cutting tool was adopted. As the cutting tool step was increased to 6-step, the micro-scale interface took on serrated morphology and a layer of continuous and wavy intermetallic compound (IMC) with an average thickness of 3.3 μm was formed at the interface. The τ 4 IMC particles and the FeAl 6 phases on a small scale were dispersed homogeneously in the welded seam. The maximum tensile strength of the joints reached 152.3 MPa upon tensile loading, 75% that of the 5052 aluminium base metal. The strong and reliable Al/steel dissimilar joints were attributed to the particle reinforced weld metal and the macro-and micro-scale dual self-locking structure at the interface.

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Tailoring the microstructural characteristic and improving the corrosion rate of Mg-Gd-Ni alloy by heat treatment with different volume fraction of LPSO phase

Dai

Wang

Pan

et al. 2023

Corrosion Science

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Preparation technology and properties of a thin anodic oxide composite film on the surface of an aluminum alloy foil

et al. 2022

Surface and Coatings Technology

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Yanlong Ma

Interaction between $$\left\{ {\left. {10\overline{1} 2} \right\}} \right.$$ and $$\left\{ {\left. {30\overline{3} 4} \right\}} \right.$$ twin in magnesium alloy

Interfacial Reaction of Ti6Al4V Lattice Structure-Reinforced VW92 Alloy Matrix Composites

Microstructure and mechanical performance of dissimilar metal joints of aluminium alloy and stainless steel by cutting-assisted welding-brazing

Tailoring the microstructural characteristic and improving the corrosion rate of Mg-Gd-Ni alloy by heat treatment with different volume fraction of LPSO phase

Preparation technology and properties of a thin anodic oxide composite film on the surface of an aluminum alloy foil

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