Effect of Cold Rolling on Microstructure and Mechanical Properties of a Cast TiNbZr-Based Composite Reinforced with Borides

Maxim Ozerov; Vitaly Sokolovsky; Nikita Yurchenko; Ilya Astakhov; Elizaveta Povolyaeva; Oleg Plekhov; Damir Tagirov; Nikita Stepanov; Sergey Zherebtsov

doi:10.3390/met14010104

Metals (Jan 2024)

Effect of Cold Rolling on Microstructure and Mechanical Properties of a Cast TiNbZr-Based Composite Reinforced with Borides

Maxim Ozerov,
Vitaly Sokolovsky,
Nikita Yurchenko,
Ilya Astakhov,
Elizaveta Povolyaeva,
Oleg Plekhov,
Damir Tagirov,
Nikita Stepanov,
Sergey Zherebtsov

Affiliations

Maxim Ozerov: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Vitaly Sokolovsky: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Nikita Yurchenko: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Ilya Astakhov: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Elizaveta Povolyaeva: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Oleg Plekhov: Institute of Continuous Media Mechanics, Ural Branch of Russian Academy of Science, 614013 Perm, Russia
Damir Tagirov: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Nikita Stepanov: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia
Sergey Zherebtsov: Laboratory of Bulk Nanostructured Materials, Belgorod State University, 308015 Belgorod, Russia

DOI: https://doi.org/10.3390/met14010104
Journal volume & issue: Vol. 14, no. 1
p. 104

Abstract

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The TiNbZr/(Ti, Nb)B metal matrix composite with 2.5 vol.% of borides was produced by vacuum arc melting. The composite was then cold-rolled to thickness strains of 10, 20, 50, or 80%. In the initial condition, the composite had a network-like microstructure consisting of the soft TiNbZr matrix (dendrites) and the rigid (Ti, Nb)B shell (interdendritic space). In comparison with the as-cast condition, cold rolling increased strength by 17–35%, depending on the thickness strain. After the maximum thickness strain of 80%, yield strength and ultimate tensile strength of the composite achieved 865 and 1080 MPa, respectively, while total elongation was found to be 5%. Microstructural analysis revealed that cold rolling to 50% resulted in the formation of crossing shear bands caused by the considerable difference in deformation behavior of the matrix and reinforcements. Cold rolling to 80% led to the formation of a lamellar-like microstructure comprising the interlayers of the (Ti, Nb)B phase between the TiNbZr laths. The maximum strain (80% cold rolling) shortened the (Ti, Nb)B fibers into nearly equiaxed particles, with a length to diameter ratio of ~2.

Published in Metals

ISSN: 2075-4701 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Mining engineering. Metallurgy
Website: http://www.mdpi.com/journal/metals

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