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Metallic layered composite materials produced by explosion welding: Structure, properties, and structure of the transition zone

The structure, morphology, and microhardness of the transition zone in multilayer metallic composite joints are studied, and the cohesion strength of the plates to be joined, the mechanical properties of the formed composite materials, and fracture surfaces are analyzed. The materials to be joined a...

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Bibliographic Details
Published in:Russian metallurgy Metally 2014-10, Vol.2014 (10), p.817-825
Main Authors: Mal’tseva, L. A., Tyushlyaeva, D. S., Mal’tseva, T. V., Pastukhov, M. V., Lozhkin, N. N., Inyakin, D. V., Marshuk, L. A.
Format: Article
Language:English
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Summary:The structure, morphology, and microhardness of the transition zone in multilayer metallic composite joints are studied, and the cohesion strength of the plates to be joined, the mechanical properties of the formed composite materials, and fracture surfaces are analyzed. The materials to be joined are plates (0.1–1 mm thick) made of D16 aluminum alloy, high-strength maraging ZI90-VI (03Kh12N9K4M2YuT) steel, BrB2 beryllium bronze, and OT4-1 titanium alloy. Composite materials made of different materials are shown to be produced by explosion welding. The dependence of the interface shape (smooth or wavelike) on the physicomechanical properties of the materials to be joined is found. The formation of a wavelike interface is shown to result in the formation of intense-mixing regions in transition zones. Possible mechanisms of layer adhesion are discussed.
ISSN:0036-0295
1555-6255
1531-8648
DOI:10.1134/S0036029514100073