2016-Sustainable Industrial Processing Summit
SIPS 2016 Volume 2: Dubois Intl. Symp. / Complex Metallic Systems

Editors:Kongoli F, Kobe S, Calin M, Dong C
Publisher:Flogen Star OUTREACH
Publication Year:2016
Pages:130 pages
ISBN:978-1-987820-38-6
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    Segregation-induced embrittlement of polycrystalline Ni: reaching the atomic scale

    Isabelle Braems1; Frederic Christien2; Anna Karpinska3; Patrick Ganster2; Emmanuel Bertrand3; Vincent Barnier2; Dominique Chatain4;
    1IMN-CNRS, Nantes Cedex, France; 2ECOLE DES MINES DE SAINT-ETIENNE, Saint-Etienne, France; 3IMN - UNIVERSITE DE NANTES, Nantes, France; 4CINAM - CNRS, Marseille, France;
    Type of Paper: Keynote
    Id Paper: 340
    Topic: 36

    Abstract:

    Even the slightest content of species segregating at the grain boundaries (GBs) of a polycrystalline material can dramatically change its physical (mechanical, thermal, electrical, optical) features and its lifetime. While some nonmetallic species may improve its mechanical properties, sulfur segregating in nickel GBs yields its embrittlement, when the S-content reaches a critical concentration specific of a ductile-brittle transition [1]. Recent observations of different GBs using the NanoSIMS device revealed that one has to account for the atomic-scale structure of the GB to understand its S content, as different GBs with different orientations display different enrichments [2]. But the expected small thickness of the segregated layers prevent a straightforward observation and requires complementary atomic-scale models.<br />Literature abounds with first-principles computations on the Ni-S, but only very few and specific GBs can be handled for tractability reasons. While many very efficient interatomic potentials can deal with pure metals and metallic alloys, up-to-date only the ReaxFF approach allows to account for Ni-S at the atomic scale [3]. We discuss its use to reach an atomic-scale description of a given GB (chemistry-structure coupling) and the challenges to solve both from computational and experimental developments to describe the interface of Ni-S GBs.<br />[1] J. K. Heuer, P. R. Okamoto, N. Q. Lam and J. F. Stubbins, Applied Physics Letters 76 (23), 3403-3405 (2000)<br />[2] F. Christien, C. Downing, K.L. Moore, C.R.M. Grovenor, Surface and Interface Analysis 44, 377-387 (2012)<br />[3] H.-P. Chen, R. K. Kalia, E. Kaxiras, G. Lu, A. Nakano, K. Nomura, A. C. T. van Duin, P. Vashishta, and Z. Yuan, Phys. Rev. Lett. 104, 155502 (2010)

    Keywords:

    mechanical behavior; property-complexity relationships;

    Cite this article as:

    Braems I, Christien F, Karpinska A, Ganster P, Bertrand E, Barnier V, Chatain D. Segregation-induced embrittlement of polycrystalline Ni: reaching the atomic scale. In: Kongoli F, Kobe S, Calin M, Dong C, editors. Sustainable Industrial Processing Summit SIPS 2016 Volume 2: Dubois Intl. Symp. / Complex Metallic Systems. Volume 2. Montreal(Canada): FLOGEN Star Outreach. 2016. p. 108-110.