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DOI: 10.1016/j.jmatprotec.2014.11.038

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Influence of milling on the development of stress corrosion cracks in austenitic stainless steel

Lyon, K N; Marrow, T J; Lyon, S B

Journal of Materials Processing Technology. 2015;:32-37.

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Abstract

We have examined the influence of mechanical surface finishing on the development of residual stresses, and on the subsequent formation of stress corrosion cracks, in 316Ti austenitic stainless steel after exposure to boiling magnesium chloride. The surface residual stresses of as-received plate, prior to machining, were found to be biaxial and compressive. However, abrasive grinding produced significant compressive stresses in the machining direction but much lower perpendicular stresses. On the other hand, milling produced high biaxial tensile stresses (approaching the ultimate tensile strength, UTS, of the material), which were found to be relatively insensitive to cut depth but to vary as a function of feed rate. On the milled surfaces a distinctive pattern of stress corrosion cracking was evident with longer primary cracks nucleating along the milling direction and secondary, shorter, cracks nucleating perpendicularly. As the surface tensile stress was lower perpendicular to the milling direction, we postulate that the nucleation of primary cracks parallel to machining must be driven by the surface profile after machining (and associated micro-stresses) as much as by the macroscopic residual stresses.

Keyword(s)

Austenitic stainless steel; Machining; Residual stress; Stress corrosion cracking

Bibliographic metadata

Type of resource:

text

Content type:

Journal article

Publication status:

Accepted

Publication type:

Original research

Publication form:

Academic journal article

Author list:

K.N. Lyon, T.J. Marrow, S.B. Lyon

Author(s):

Published date:

2015-03

Accepted date:

2014-11-20

Submitted date:

2014-03-20

Article title:

Influence of milling on the development of stress corrosion cracks in austenitic stainless steel

Language:

eng

Journal title:

Journal of Materials Processing Technology

ISSN:

0924-0136

Publisher:

Elsevier S.A.

Start page:

End page:

Total:

Pagination:

32-37

Digital Object Identifier:

10.1016/j.jmatprotec.2014.11.038

Funding awarded to University:

EPSRC - RESEPSRC

Funding awarded externally:

EPSRC

Research data access statement included:

Attached files Open Access licence:

Creative Commons Attribution Non-Commercial No Derivatives (CC BY-NC-ND)

Attached files embargo period:

Immediate release

Attached files release date:

22nd January, 2015

Access state:

Active

Institutional metadata

University researcher(s):

Lyon, Stuart

Academic department(s):

Record metadata

Manchester eScholar ID:

uk-ac-man-scw:249443

Created by:

Lyon, Stuart

Created:

22nd January, 2015, 14:15:51

Last modified by:

Sinclair, Traceyanne

Last modified:

24th November, 2015, 08:03:53