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Journal of Iron and Steel Research International

Erschienen in:

01.07.2018 | Original Paper

Interlayer engineering for titanium clad steel by hot roll bonding

verfasst von: Xi-yang Chai, Tao Pan, Feng Chai, Xiao-bing Luo, Hang Su, Zhi-gang Yang, Cai-fu Yang

Erschienen in: Journal of Iron and Steel Research International | Ausgabe 7/2018

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Abstract

Hot roll bonding was carried out between commercially pure titanium TA2 and high-strength low-alloy steel Q390 using pure Nb or Mo interlayer at 950 °C with a total reduction ratio of 86.7%. Interfacial microstructure and bonding properties of titanium clad steel plates were investigated by electron microscopy and mechanical tests. The results showed β-Ti, TiC and Fe₂Ti reaction phases were generated at Ti/steel interface for the clad plates with no interlayer. Inserting Nb or Mo interlayer can effectively suppress the formation of brittle phases, while the weak bonding joint transferred to Nb/steel or Mo/steel interface. And some micro-voids were found at the interface of Nb/steel and Mo/steel. The improved shear strength of clad plates with Nb interlayer might be attributed to the elimination of brittle phases at bonding interface. The small size and little quantities of the micro-voids at Nb/steel interface had a relatively weak effect on shear strength. However, the large number and big size of micro-voids were responsible for the degradation of shear strength for the clad plates with Mo interlayer.

Vorheriger Artikel Interfacial microstructure and mechanical properties of stainless steel clad plate prepared by vacuum hot rolling

Nächster Artikel Effect of milling duration on hydrogen storage thermodynamics and kinetics of ball-milled Ce–Mg–Ni-based alloy powders

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Titel: Interlayer engineering for titanium clad steel by hot roll bonding
verfasst von: Xi-yang Chai
Tao Pan
Feng Chai
Xiao-bing Luo
Hang Su
Zhi-gang Yang
Cai-fu Yang
Publikationsdatum: 01.07.2018
Verlag: Springer Singapore
Erschienen in: Journal of Iron and Steel Research International / Ausgabe 7/2018
Print ISSN: 1006-706X
Elektronische ISSN: 2210-3988
DOI: https://doi.org/10.1007/s42243-018-0106-3

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