Investigation of Cu Interlayer on Joint Formation of Ti/Mg Bimetal Fabricated by Liquid–Solid Compound Casting Process

In this paper, TC4/AZ91D bimetallic composites has been prepared by liquid–solid compound casting process adapting various thickness of Cu coating. The effects of Cu coating thickness on the evolution of interface microstructures and joint mechanical properties are investigated. The results indicate...

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Bibliographic Details
Published in:Metals and materials international 2022, 28(7), , pp.1711-1724
Main Authors: Wen, Fulin, Zhao, Jianhua, Feng, Kaiqing, Yuan, Miaowang, Zheng, Dengzhi, Gu, Cheng, Xu, Bei
Format: Article
Language:English
Subjects:
Aluminum
Bimetals
Bonded joints
Characterization and Evaluation of Materials
Chemical potential
Chemistry and Materials Science
Coating
Composite materials
Copper
Engineering Thermodynamics
Enthalpy
Fracture surfaces
Heat and Mass Transfer
Interlayers
Intermetallic compounds
Machines
Magnesium base alloys
Magnetic Materials
Magnetism
Manufacturing
Materials Science
Mechanical properties
Metallic Materials
Metallurgy
Microstructure
Processes
Shear strength
Solid Mechanics
Thickness
Titanium
재료공학
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Summary:In this paper, TC4/AZ91D bimetallic composites has been prepared by liquid–solid compound casting process adapting various thickness of Cu coating. The effects of Cu coating thickness on the evolution of interface microstructures and joint mechanical properties are investigated. The results indicate that metallurgical bonded joints are obtained with Cu coating thickness ranging from 36.7 to 51.4 μm. With the increase of Cu coating thickness, the interface microstructure evolves from δ-Mg + Mg 2 Cu eutectic structure to Mg–Cu intermetallic compound (IMC) Cu 2 Mg + Mg 2 Cu and Mg–Al–Cu ternary intermetallic compound. The calculation results of formation enthalpy and chemical potential of Mg–Al–Cu system suggest that Cu element prefers to react with Mg element and formed Mg–Cu IMC. In particular, when Cu coating thickness reaches 36.7 μm, the average shear strength of the bimetal reaches a maximum of 65.3 MPa. Further increasing Cu coating thickness leads to the generation of thick Mg 2 Cu IMC layer and Mg 2 Cu + Cu 2 Mg mixed IMC layer which are proved to be harmful to the shear strength of TC4/AZ91D bimetals. All the fracture surfaces of the bimetallic composites exhibite to have a brittle fracture morphology. However, the fracture location is different with each other. For Cu coating thickness of 36.7 μm, the interface fractures at the δ-Mg + Mg 2 Cu eutectic structure, while the interface fractures at the Cu 2 Mg + Mg–Al–Cu ternary intermetallic layers when Cu coating thickness is 44.2 μm and 51.4 μm. Graphic Abstract
ISSN:1598-9623
2005-4149
DOI:10.1007/s12540-021-01027-1