Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis

Oguz Ozdemir; S. Valiyev; S.M. Montes; E. Ferrie; M. Blat-Yrieix; F. Delabrouille; L. Salvo

doi:10.1080/09603409.2022.2058229

Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis

Oguz Ozdemir
, S. Valiyev
, S.M. Montes
, E. Ferrie
, M. Blat-Yrieix
, F. Delabrouille
, L. Salvo

Division of Nuclear Sciences

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

Abstract

Creep behaviour of two alloys, namely, classical 316 L(N), labelled as LN, and nitrogen-modified 316 L(N), labelled as an HN, in this present work, have been studied at 575 °C at a stress level of 310 MPa. 3D analyses have been done by using two different X-ray sources. Additions of nitrogen in 316 L(N) have been demonstrated to be beneficial for extending the life of austenitic stainless steels, decreasing the creep damage. Creep cavities have been classified based on their shape, and the growth orientation of cavities is analysed. Even though the total lifetime of LN sample is shorter (649 h) compared to HN (9203 h), it exhibits more cavities. The orientation of the cavities and the complex shape of cavities have been proving that stress direction has a huge effect on the LN sample damage development with a concentration of 10° and 90°.

Original language	English
Pages (from-to)	529-537
Number of pages	9
Journal	Materials at High Temperatures
Volume	39
Issue number	6
DOIs	https://doi.org/10.1080/09603409.2022.2058229
Publication status	Published - 2022

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title = "Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis",

abstract = "Creep behaviour of two alloys, namely, classical 316 L(N), labelled as LN, and nitrogen-modified 316 L(N), labelled as an HN, in this present work, have been studied at 575 °C at a stress level of 310 MPa. 3D analyses have been done by using two different X-ray sources. Additions of nitrogen in 316 L(N) have been demonstrated to be beneficial for extending the life of austenitic stainless steels, decreasing the creep damage. Creep cavities have been classified based on their shape, and the growth orientation of cavities is analysed. Even though the total lifetime of LN sample is shorter (649 h) compared to HN (9203 h), it exhibits more cavities. The orientation of the cavities and the complex shape of cavities have been proving that stress direction has a huge effect on the LN sample damage development with a concentration of 10° and 90°.",

author = "Oguz Ozdemir and S. Valiyev and S.M. Montes and E. Ferrie and M. Blat-Yrieix and F. Delabrouille and L. Salvo",

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T1 - Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis

AU - Ozdemir, Oguz

AU - Valiyev, S.

AU - Montes, S.M.

AU - Ferrie, E.

AU - Blat-Yrieix, M.

AU - Delabrouille, F.

AU - Salvo, L.

N1 - doi: 10.1080/09603409.2022.2058229

PY - 2022

Y1 - 2022

N2 - Creep behaviour of two alloys, namely, classical 316 L(N), labelled as LN, and nitrogen-modified 316 L(N), labelled as an HN, in this present work, have been studied at 575 °C at a stress level of 310 MPa. 3D analyses have been done by using two different X-ray sources. Additions of nitrogen in 316 L(N) have been demonstrated to be beneficial for extending the life of austenitic stainless steels, decreasing the creep damage. Creep cavities have been classified based on their shape, and the growth orientation of cavities is analysed. Even though the total lifetime of LN sample is shorter (649 h) compared to HN (9203 h), it exhibits more cavities. The orientation of the cavities and the complex shape of cavities have been proving that stress direction has a huge effect on the LN sample damage development with a concentration of 10° and 90°.

AB - Creep behaviour of two alloys, namely, classical 316 L(N), labelled as LN, and nitrogen-modified 316 L(N), labelled as an HN, in this present work, have been studied at 575 °C at a stress level of 310 MPa. 3D analyses have been done by using two different X-ray sources. Additions of nitrogen in 316 L(N) have been demonstrated to be beneficial for extending the life of austenitic stainless steels, decreasing the creep damage. Creep cavities have been classified based on their shape, and the growth orientation of cavities is analysed. Even though the total lifetime of LN sample is shorter (649 h) compared to HN (9203 h), it exhibits more cavities. The orientation of the cavities and the complex shape of cavities have been proving that stress direction has a huge effect on the LN sample damage development with a concentration of 10° and 90°.

U2 - 10.1080/09603409.2022.2058229

DO - 10.1080/09603409.2022.2058229

M3 - Article

SN - 0960-3409

VL - 39

SP - 529

EP - 537

JO - Materials at High Temperatures

JF - Materials at High Temperatures

IS - 6

ER -

Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis

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