The characteristics of microstructure and mechanical strength of the Mg/Al alloy joint diffusion bonded with a Zn interlayer were studied by means of metalloscopy,X-ray diffraction(XRD),electron probe microanalysis(EPMA) and mechanical property test.Investigations showed that the Mg/Al alloy joint diffusion bonded with Zn interlayer consists of a multilayer sandwich structure,including the transition zone on Al side,Zn and Zn-Mg transition zone,as well as the transition zone on Mg side.The transition zone on Al side is very thin and composed mainly of a solid solution structure,while the Zn-Mg transition zone has a relative larger dimension after a rapid eutectic reaction.The addition of zinc interlayer inhibits the inter-diffusion of Mg and Al alloy efficiently.The Zn-Mg transition zone constitutes the main part of the joint and consists of Mg crystals and the new phase formed is MgZn intermetallic compound.The mechanical strength of Mg/Al alloy joints diffusion bonded with Zn interlayer reached 42 MPa.According to the phase constitution analyses executed on each side of the fracture face,it was deduced that the fracture of Mg/Al alloy joint located around the interface of Zn and Zn-Mg transition zone.
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机译:平成28年度论文赏受赏轮文:Effect of Si/Fe Composition, Substrate Temperature, and Substrate Orientation on the Structure and Magnetic Properties of Fe-Si Alloy Film