Effect of Preliminary Deformation on the Low-Cyclic Fatigue Characteristics, Phase Composition, and Residual Stresses of VNS9-Sh TRIP Steel

被引：0

作者：

Lukin, E. I. ^{[1
]}

Ashmarin, A. A. ^{[1
]}

Seval'nev, G. S. ^{[2
]}

Betsofen, S. Ya. ^{[1
,3
]}

Bannykh, I. O. ^{[1
]}

Blinov, E. V. ^{[1
]}

Ryzhkov, P. V. ^{[2
]}

Chernenok, D. V. ^{[1
]}

机构：

[1] Russian Acad Sci, Baikov Inst Met & Mat Sci, Moscow 109334, Russia

[2] Natl Res Ctr Kurchatov Inst, VIAM, Moscow 105005, Russia

[3] Natl Res Univ, Moscow Aviat Inst, Russia is, Moscow 125993, Russia

来源：

RUSSIAN METALLURGY | 2024年 / 2024卷 / 05期

关键词：

VNS9-Sh TRIP steel; preliminary deformation; low-cyclic fatigue (LCF); phase composition; residual macrostresses; AUSTENITE; PRESTRAIN; STABILITY; BEHAVIOR;

D O I：

10.1134/S0036029524702124

中图分类号：

TF [冶金工业];

学科分类号：

0806 ;

摘要：

The influence of preliminary plastic tensile deformation (epsilon(pd) = 9.5-26%) on the low-cyclic fatigue (LCF), phase composition, and residual stresses of 0.3- and 0.8-mm thick VNS9-Sh TRIP steel ribbons is determined. The LCF resistances of the ribbons of both thicknesses are shown to decrease as epsilon pd increases. Cyclic loading is found to lead to the formation of tensile stresses in martensite, unlike static tension inducing compressive stresses in martensite.

引用

页码：1132 / 1137

页数：6

共 24 条

[1] Phase Composition and Residual Stresses in the Surface Layers of VNS9-Sh TRIP Steel
S. Ya. Betsofen
A. A. Ashmarin
V. F. Terent’ev
I. A. Grushin
M. A. Lebedev
Russian Metallurgy (Metally), 2020, 2020 : 1129 - 1136
[2] Phase Composition and Residual Stresses in the Surface Layers of VNS9-Sh TRIP Steel
Betsofen, S. Ya.
Ashmarin, A. A.
Terent'ev, V. F.
Grushin, I. A.
Lebedev, M. A.
RUSSIAN METALLURGY, 2020, 2020 (10): : 1129 - 1136
[3] Effect of Tensile Deformation on the Texture, Phase Composition, and Residual Stresses of the α and γ Phases in VNS9-Sh Steel
Bannykh, I. O.
Ashmarin, A. A.
Betsofen, S. Ya.
Lukin, E. I.
Seval'nev, G. S.
Blinov, E. V.
Aleksandrov, A. A.
RUSSIAN METALLURGY, 2023, 2023 (07): : 905 - 913
[4] Erratum to: Phase Composition and Residual Stresses in the Surface Layers of VNS9-Sh TRIP Steel
S. Ya. Betsofen
A. A. Ashmarin
V. F. Terent’ev
I. A. Grushin
M. A. Lebedev
Russian Metallurgy (Metally), 2021, 2021 : 570 - 570
[5] Effect of Tensile Deformation on the Texture, Phase Composition, and Residual Stresses of the α and γ Phases in VNS9-Sh Steel
I. O. Bannykh
A. A. Ashmarin
S. Ya. Betsofen
E. I. Lukin
G. S. Seval’nev
E. V. Blinov
A. A. Aleksandrov
Russian Metallurgy (Metally), 2023, 2023 : 905 - 913
[6] Effect of Tempering on the Phase Composition and Texture of the α and γ Phases in VNS9-Sh TRIP Steel
Betsofen, S. Ya
Ashmarin, A. A.
Terent'ev, V. F.
Grushin, I. A.
Gordeeva, M., I
Lebedev, M. A.
RUSSIAN METALLURGY, 2021, 2021 (10): : 1337 - 1344
[7] Effect of Tempering on the Phase Composition and Texture of the α and γ Phases in VNS9-Sh TRIP Steel
S. Ya. Betsofen
A. A. Ashmarin
V. F. Terent’ev
I. A. Grushin
M. I. Gordeeva
M. A. Lebedev
Russian Metallurgy (Metally), 2021, 2021 : 1337 - 1344
[8] Phase Composition and Residual Stresses in the Surface Layers of VNS9-Sh TRIP Steel (vol 2020, pg 1129, 2020)
Betsofen, S. Ya.
Ashmarin, A. A.
Terent'ev, V. F.
Grushin, I. A.
Lebedev, M. A.
RUSSIAN METALLURGY, 2021, 2021 (04): : 570 - 570
[9] Effect of Annealing on the Phase Composition and the Linear Thermal Expansion Coefficient of VNS9-Sh TRIP Steel
Ashmarin, A. A.
Betsofen, S. Ya.
Lukin, E. I.
RUSSIAN METALLURGY, 2022, 2022 (11): : 1397 - 1402
[10] Effect of Reduction on the Phase Composition and the Mechanical Properties of a VNS9-Sh TRIP Steel Wire during Static and Cyclic Loading
D. V. Prosvirnin
G. S. Seval’nev
M. A. Kaplan
M. A. Sevost’yanov
A. S. Baikin
K. V. Sergienko
S. V. Pivovarchik
M. E. Prutskov
T. G. Seval’neva
A. G. Kolmakov
E. I. Ul’yanov
Russian Metallurgy (Metally), 2023, 2023 : 1510 - 1515

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