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References

Articles:

Puliafito, V., Torres, L., Ozatay, O., Hauet, T., Azzerboni, B. and Finocchio, G.
Journal of Applied Physics, 115(17)
2014

Equipe: Département P2M : Nanomagnétisme et Electronique de Spin

Redjdal, N., Salah, H., Hauet, T., Menari, H., Chérif, S.M., Gabouze, N. and Azzaz, M.
Thin Solid Films, 552:164-169
2014

Equipe: Département P2M : Nanomagnétisme et Electronique de Spin

Samih, Y., Marcos, G., Stein, N., Allain, N., Fleury, E., Dong, C. and Grosdidier, T.
Surface and Coatings Technology,
2014

Mots clefs: High Current Pulsed Electron Beam Treatment (HCPEB) Surface hardening Corrosion Phase selection Phase transformation Martensitic steel

Resume: Abstract The surface of the AISI 420 martensitic stainless steel was subjected to High Current Pulsed Electron Beam (HCPEB) treatment. The microstructure in the melted layer consisted of a three phase mixture: (i) fine ?-Fe grains formed via epitaxial growth from the substrate, (ii) larger ?–grains nucleated from the top surface of the melt and (iii) some needles-like variants issued from the solid state martenitic transformation. Despite this complex multi-phase microstructure, the corrosion performance, tested in a sulfuric acid solution, was significantly enhanced by the HCPEB treatment. The increase in corrosion potential and delayed pitting are essentially attributed to an increase in Cr content, rising from 13.3 wt. % in the bulk to about 14 wt. % at the surface, together with a very limited amount of surface craters. This low density of craters did not give rise to significant deep hardening in the sub-surface but the top surface melted layer hardness was increased by more than 50% because of the triggering of the martensitic transformation.

Equipe: Département CP2S : Chimie et électrochimie des matériaux

Samih, Y., Marcos, G., Stein, N., Allain, N., Fleury, E., Dong, C. and Grosdidier, T.
Surface and Coatings Technology, 259:737-745
2014

Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS

Li, H. I., Abreu, G. J. P., SHUKLA, A. K., Fournee, V., Ledieu, J., Loli, L. N. Serkovic, Rauterkus, S. E., Snyder, M. V., Su, S. Y., Marino, K. E. and DIEHL, R. D.
PHYSICAL REVIEW B, 89(8)
2014
ISSN: 1098-0121

Equipe: Département CP2S : Métallurgie et Surfaces

Glad, X., de Poucques, L., A. Jaszczak, J., Belmahi, M., Ghanbaja, J. and Bougdira, J.
Carbon, 76:330-340
2014

Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS

Hauet, T., Piraux, L., Srivastava, S.K., Antohe, V.A., Lacour, D., Hehn, M., Montaigne, F., Schwenk, J., Marioni, M.A., Hug, H.J., Hovorka, O., Berger, A., Mangin, S. and Abreu Araujo, F.
Physical Review B - Condensed Matter and Materials Physics, 89(17)
2014

Equipe: Département P2M : Nanomagnétisme et Electronique de Spin

Zheltov, V. V., Cherkez, V. V., Andryushechkin, B. V., Zhidomirov, G. M., Kierren, B., Fagot-Revurat, Y., Malterre, D. and Eltsov, K. N.
PHYSICAL REVIEW B, 89(19)
2014
ISSN: 1098-0121

Equipe: Département P2M : Surfaces et Spectroscopies

Alebrand, S., Bierbrauer, U., Hehn, M., Gottwald, M., Schmitt, O., Steil, D., Fullerton, E.E., Mangin, S., Cinchetti, M. and Aeschlimann, M.
Physical Review B - Condensed Matter and Materials Physics, 89(14)
2014

Equipe: Département P2M : Nanomagnétisme et Electronique de Spin

Bénéteau, Adeline, Aeby-Gautier, Elisabeth, Geandier, Guillaume, Weisbecker, Patrick, Redjaimia, Abdelkrim and Appolaire, Benoit
Acta Materialia, 81:30--40
2014
ISSN: 1359-6454

Equipe: Département SI2M : Microstructures et Contraintes

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