Structure of the oxide film on Ti–6Ta alloy after immersion test in 8mol/L boiling nitric acid medium

Guo, Di; Yang, Yong; Wu, Jing; Zhao, Bin; Zhao, Hengzhang; Su, Haijun; Lu, Yafeng

doi:10.1016/j.elspec.2013.08.013

Cited by 7 publications

(3 citation statements)

References 15 publications

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“…A significant decrease of corrosion damage rate of titanium alloyed with tantalum can be explained by formation of tantalum pentoxide (Ta 2 O 5 ) at the Ti-Ta alloy surface. This dense film is characterized by good adhesion with the base material and superior stability as compared to the titanium dioxide (TiO 2 ) film [8][9][10]. It is also mentioned in the literature that a small amount of zirconium added to Ti-Ta alloy positively affects the corrosion resistance of the alloy [11].…”

Section: Introductionmentioning

confidence: 96%

Structure and mechanical properties of coatings fabricated by nonvacuum electron beam cladding of Ti-Ta-Zr powder mixtures

Samoylenko

Lenivtseva

Polyakov

et al. 2015

AIP Conference Proceedings

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In this paper structural investigations and mechanical tests of Ti-Ta-Zr coatings obtained on surfaces of cptitanium workpieces were carried out. It was found that the coatings had a dendrite structure; investigations at high-power magnifications revealed a platelet structure. An increase of tantalum concentration led to refinement of structural components. The microhardness level of all coatings, excepting a specimen with the maximum tantalum content, was 370 HV. The microhardness of this coating reached 400 HV. The ultimate tensile strength of cladded layers varied from 697 to 947 MPa. Adhesion tests showed that bimetallic composites were characterized by high bond strength of cladded layers to the substrate, which exceeded cp-titanium strength characteristics.

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Section: Introductionmentioning

confidence: 96%

Structure and mechanical properties of coatings fabricated by nonvacuum electron beam cladding of Ti-Ta-Zr powder mixtures

Samoylenko

Lenivtseva

Polyakov

et al. 2015

AIP Conference Proceedings

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show abstract

“…В этом случае высоколегированные сплавы на основе железа могут быть заменены на титановые сплавы [4]. В работах [5][6][7][8] было показано, что особенно эффективным является использование сплавов системы «титан-тантал». Так, например, уровень коррозионной стойкости титанового сплава, содержащего 40 % тантала, сопоставим с уровнем коррозионной стойкости технически чистого тантала [2,5].…”

Section: Introductionunclassified

“…Так, например, уровень коррозионной стойкости титанового сплава, содержащего 40 % тантала, сопоставим с уровнем коррозионной стойкости технически чистого тантала [2,5]. Следует от-метить, что высокая стойкость к воздействию агрессивных сред может быть также обеспечена сплавами с более низкой концентрацией тантала [6][7][8][9][10].…”

Section: Introductionunclassified

Influence of rolling and heat treatment on the structure and properties of the coatings fabricated on the titanium substrates by electron beam cladding

Samoylenko¹,

Lazurenko²,

Polyakov³

et al. 2015

Metal Working and Material Science

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New insight into the role of microscale residual stresses on initial corrosion behavior of Ti35 alloy

Liu

et al. 2022

Corrosion Science

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Structure of the oxide film on Ti–6Ta alloy after immersion test in 8mol/L boiling nitric acid medium

Cited by 7 publications

References 15 publications

Structure and mechanical properties of coatings fabricated by nonvacuum electron beam cladding of Ti-Ta-Zr powder mixtures

Structure and mechanical properties of coatings fabricated by nonvacuum electron beam cladding of Ti-Ta-Zr powder mixtures

Influence of rolling and heat treatment on the structure and properties of the coatings fabricated on the titanium substrates by electron beam cladding

New insight into the role of microscale residual stresses on initial corrosion behavior of Ti35 alloy

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