Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking

Standard

Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking. / Bannykh, Oleg A.; Blinov, Viktor M.; Berezovskaya, V. V. et al.
In: Russian metallurgy. Metally, No. 4, 2005, p. 310-314.

Research output: Contribution to journal › Article › peer-review

Harvard

Bannykh, OA, Blinov, VM, Berezovskaya, VV, Kostina, MV, Gervas'ev, MA, Golyakov, IV & Trushin, IS 2005, 'Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking', Russian metallurgy. Metally, no. 4, pp. 310-314.

APA

Bannykh, O. A., Blinov, V. M., Berezovskaya, V. V., Kostina, M. V., Gervas'ev, M. A., Golyakov, I. V., & Trushin, I. S. (2005). Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking. Russian metallurgy. Metally, (4), 310-314.

Vancouver

Bannykh OA, Blinov VM, Berezovskaya VV, Kostina MV, Gervas'ev MA, Golyakov IV et al. Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking. Russian metallurgy. Metally. 2005;(4):310-314.

Author

Bannykh, Oleg A. ; Blinov, Viktor M. ; Berezovskaya, V. V. et al. / Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking. In: Russian metallurgy. Metally. 2005 ; No. 4. pp. 310-314.

BibTeX

@article{b2463f01c1244b7f9cc400450b6fa333,

title = "Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking",

abstract = "New high-nitrogen austenitic 0Kh21A1 and 0Kh18N2A1 alloys are subjected to stress-corrosion cracking (SCC) tests in a 20% NaCl solution. The alloys are studied by fractography, dilatometry, and X-ray diffraction before and after the SCC tests (their fracture surfaces are studied). The nickel-free alloy is found to have higher strength and SCC resistance. Both alloys exhibit the minimum SCC resistance after aging at 350°C. Our studies have shown that the chemical inhomogeneity of the initial austenite in the 0Kh21A1 and 0Kh18N2A1 alloys is the main cause of the formation of martensite of different compositions and morphology during both cooling and deformation. The SCC of the alloys under study is thought to be controlled by the γ → α martensite transformation of a nitrogen-rich austenite during deformation. ",

author = "Bannykh, {Oleg A.} and Blinov, {Viktor M.} and Berezovskaya, {V. V.} and Kostina, {Maria V.} and Gervas'ev, {M. A.} and Golyakov, {I, V.} and Trushin, {I. S.}",

year = "2005",

language = "English",

pages = "310--314",

journal = "Russian metallurgy. Metally",

issn = "0036-0295",

publisher = "Pleiades Publishing",

number = "4",

}

RIS

TY - JOUR

T1 - Effect of the γ → α mtensite tnsformation in Fe-Cr-N aloys on teir sress-crrosion cacking

AU - Bannykh, Oleg A.

AU - Blinov, Viktor M.

AU - Berezovskaya, V. V.

AU - Kostina, Maria V.

AU - Gervas'ev, M. A.

AU - Golyakov, I, V.

AU - Trushin, I. S.

PY - 2005

Y1 - 2005

N2 - New high-nitrogen austenitic 0Kh21A1 and 0Kh18N2A1 alloys are subjected to stress-corrosion cracking (SCC) tests in a 20% NaCl solution. The alloys are studied by fractography, dilatometry, and X-ray diffraction before and after the SCC tests (their fracture surfaces are studied). The nickel-free alloy is found to have higher strength and SCC resistance. Both alloys exhibit the minimum SCC resistance after aging at 350°C. Our studies have shown that the chemical inhomogeneity of the initial austenite in the 0Kh21A1 and 0Kh18N2A1 alloys is the main cause of the formation of martensite of different compositions and morphology during both cooling and deformation. The SCC of the alloys under study is thought to be controlled by the γ → α martensite transformation of a nitrogen-rich austenite during deformation.

AB - New high-nitrogen austenitic 0Kh21A1 and 0Kh18N2A1 alloys are subjected to stress-corrosion cracking (SCC) tests in a 20% NaCl solution. The alloys are studied by fractography, dilatometry, and X-ray diffraction before and after the SCC tests (their fracture surfaces are studied). The nickel-free alloy is found to have higher strength and SCC resistance. Both alloys exhibit the minimum SCC resistance after aging at 350°C. Our studies have shown that the chemical inhomogeneity of the initial austenite in the 0Kh21A1 and 0Kh18N2A1 alloys is the main cause of the formation of martensite of different compositions and morphology during both cooling and deformation. The SCC of the alloys under study is thought to be controlled by the γ → α martensite transformation of a nitrogen-rich austenite during deformation.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=33748509355

M3 - Article

SP - 310

EP - 314

JO - Russian metallurgy. Metally

JF - Russian metallurgy. Metally

SN - 0036-0295

IS - 4

ER -

ID: 42345784