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Journal articles on the topic 'Alliages à base de Fe'

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Published: 7 July 2024

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1

Steinmetz, Jean, Michel Vilasi, and Bernard Roques. "Oxydation et protection des alliages base niobium." Le Journal de Physique IV 03, no. C9 (December 1993): C9–487—C9–498. http://dx.doi.org/10.1051/jp4:1993952.

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2

Marcon, G., and S. Lay. "Lacune de miscibilité du système Fe-NiAl en relation avec les propriétés physiques des alliages. II. Alliages riches en fer." Revue de Métallurgie 96, no. 2 (February 1999): 155–62. http://dx.doi.org/10.1051/metal/199996020155.

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3

Marcon, G., S. Lay, and F. Monnet. "Lacune de miscibilité du système Fe-NiAl en relation avec les propriétés physiques des alliages. I. Alliages riches en composé NiAl." Revue de Métallurgie 95, no. 12 (December 1998): 1471–80. http://dx.doi.org/10.1051/metal/199895121471.

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4

CHARRIN, L., A. COMBE, A. CHARAI, and J. CABANE. "Les mécanismes de l'oxydation interne dans les alliages à base d'argent." Le Journal de Physique IV 04, no. C3 (February 1994): C3–127—C3–132. http://dx.doi.org/10.1051/jp4:1994318.

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5

El Kurdi, Moustafa, Emilie Sakat, Jean-Michel Hartmann, Vincent Reboud, Alexei Chelnokov, Nicolas Pauc, Vincent Calvo, Philippe Boucaud, and Fréderic Bœuf. "Laser infrarouge à base de semi-conducteurs de la filière silicium." Photoniques, no. 109 (July 2021): 40–43. http://dx.doi.org/10.1051/photon/202110940.

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Nous présentons les récents développements scientifiques et techniques liés aux sources lasers infrarouges en micro-cavités à base d’alliages germanium-étain (GeSn). Ces alliages sont des matériaux semi-conducteurs de la filière silicium compatibles avec les procédés de fabrication bas coût de l’industrie de la micro-électronique. Un des enjeux est d’obtenir un alignement direct de la structure de bande électronique avec ces éléments de la colonne IV.
6

Tamarin, J. A., E. B. Kachanov, and N. V. Zabrodina. "Corrosion à haute température des alliages base aluminiure destinés aux revêtements protecteurs." Materials Science and Engineering: A 120-121 (December 1989): 361–65. http://dx.doi.org/10.1016/0921-5093(89)90788-0.

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7

Sigli, C. "Modélisation de la genèse des zones dénudées dans les alliages Al-Mn-Fe-(Mg-Si)." Revue de Métallurgie 90, no. 9 (September 1993): 1189. http://dx.doi.org/10.1051/metal/199390091189.

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8

GANNAC, Y., J. DEGAUQUE, and J. P. REDOULES. "Propriétés magnétiques d'alliages Fe-6,5%Si élaborés par solidification rapide sous atmosphère contrôlée. Comparaison avec des alliages Fe-3,2%Si industriels." Le Journal de Physique IV 02, no. C3 (December 1992): C3–79—C3–83. http://dx.doi.org/10.1051/jp4:1992311.

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9

Nouicer, El Amine, Hacene Chadli, Mohammed-Hachemi Khireddine, Djamila Khireddine, and Lazhar Yahia. "Caractérisation des alliages à base de titane : influence d'un traitement de surface par nitruration." Annales de chimie Science des Matériaux 32, no. 6 (November 1, 2007): 665–72. http://dx.doi.org/10.3166/acsm.32.675-672.

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10

Guillon, I., C. Servant, and O. Lyon. "Étude des déplacements induits par des précipités dans des alliages à base de cuivre." Journal de Physique IV (Proceedings) 118 (November 2004): 63–70. http://dx.doi.org/10.1051/jp4:2004118007.

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11

Lachgar, M., L. Durand, A. Altibelli, and A. Coujou. "Modélisation par la méthode aux éléments finis de super-alliages biphasés à base nickel." Revue de Métallurgie 91, no. 9 (September 1994): 1319. http://dx.doi.org/10.1051/metal/199491091319.

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12

Djerdjare, B., and S. Lebaili. "Alliages durs de rechargement à matrice mixte Ni-Fe-Co. Phases formées et tests de corrosion." Matériaux & Techniques 94, no. 4 (2006): 261–72. http://dx.doi.org/10.1051/mattech:2007002.

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13

Bertrand, F., J. Lehmann, and H. Gaye. "Etude expérimentale et théorique de l’élimination de Ti dans des alliages liquides Mn-Si-Fe-C." Revue de Métallurgie 95, no. 9 (September 1998): 1109–20. http://dx.doi.org/10.1051/metal/199895091109.

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14

Sato, R., and K. Mizushima. "Spin-valve transistor with an Fe/Au/Fe(001) base." Applied Physics Letters 79, no. 8 (August 20, 2001): 1157–59. http://dx.doi.org/10.1063/1.1397257.

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15

Molins, R., A. Pineau, and E. Andrieu. "Oxydation et propagation des fissures en fatigue-fluage dans des alliages à base de nickel." Le Journal de Physique IV 10, PR4 (March 2000): Pr4–259—Pr4–264. http://dx.doi.org/10.1051/jp4:2000436.

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16

Tirand, G., C. Primault, and V. Robin. "Sensibilité à la fissuration à chaud des alliages base nickel à haute teneur en chrome." Matériaux & Techniques 102, no. 4 (2014): 403. http://dx.doi.org/10.1051/mattech/2014035.

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17

Pernot, M., and F. Montheillet. "Archéométallurgie du formage : le martelage des alliages à base de cuivre à l’époque protohistorique. Premiers résultats." Revue de Métallurgie 91, no. 5 (May 1994): 849–61. http://dx.doi.org/10.1051/metal/199491050849.

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18

Berthod, Patrice, Yassin Hamini, and Lionel Aranda. "Influence of Tantalum on the Rates of High Temperature Oxidation and Chromia Volatilization for Cast (Fe and/or Ni)-30Cr-0.4C Alloys." Materials Science Forum 595-598 (September 2008): 861–70. http://dx.doi.org/10.4028/www.scientific.net/msf.595-598.861.

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Four cast superalloys, Fe-base and (Fe,Ni)-base alloys, all containing 30%Cr and 0.4%C, were elaborated with addition of 3% and 6% of tantalum. Their oxidation behaviours were studied at 1000, 1100 and 1200°C during 50 hours. The oxidized surfaces of the samples were quantitatively characterized by measurements of thicknesses and surface fractions of internal oxides. The thermogravimetry files were treated according to the {m×(dm/dt) = Kp - Kv×m} equation, to obtain simultaneously the parabolic constant and the chromia volatilization constant. The internal tantalum oxides are more present in the Fe-base alloys and the carbide-free zones are less developed for the (Fe,Ni)-base alloys than for the others. The Fe-base alloys oxidize faster than the (Fe,Ni)-base and Ni-base alloys. The comparison with the corresponding Ta-free ternary alloys shows that the presence of Ta tends to accelerate the oxidation.
19

Pippel, E., J. Woltersdorf, and R. Schneider. "Micromechanisms of metal dusting on Fe-base and Ni-base alloys." Materials and Corrosion 49, no. 5 (May 1998): 309–16. http://dx.doi.org/10.1002/(sici)1521-4176(199805)49:5<309::aid-maco309>3.0.co;2-1.

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20

Pan, X. F., H. F. Zhang, A. M. Wang, B. Z. Ding, and Z. Q. Hu. "Preparation of superfine Fe-base alloy by liquidus casting." Journal of Materials Research 16, no. 12 (December 2001): 3459–63. http://dx.doi.org/10.1557/jmr.2001.0475.

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The superfine Fe–B–Si–Mo and Fe–B–Zr–Nb alloys were prepared by liquidus casting in which the levitation melting combining with the rapid solidification was used. The melt was poured into a copper mold at various temperatures, and a superfine granular microstructure was obtained at liquidus temperature. The behavior of Cu and Ag addition to Fe–B–Si–Mo and Fe–B–Zr–Nb alloys was studied. Both adding Cu and Ag to Fe–B–Si–Mo and Fe–B–Zr–Nb alloys had influence on refining the alloys. The refinement effect of adding Cu is stronger than that of adding Ag in Fe–B–Zr–Nb alloy.
21

Sahlaoui, H. "Modèle de prédiction de l'évolution des profils de chrome au cours du vieillissement des alliages Ni-Cr-Fe." Annales de Chimie Science des Matériaux 28, no. 5 (October 2003): 1–16. http://dx.doi.org/10.1016/s0151-9107(03)00102-8.

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22

Săndulache, Florin, Sergiu Stanciu, Nicanor Cimpoeşu, Ramona Cimpoeşu, and Teodor Stanciu. "Obtaining of Fe-Base Biodegradable Metallic Alloy." Key Engineering Materials 750 (August 2017): 175–79. http://dx.doi.org/10.4028/www.scientific.net/kem.750.175.

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Biodegradable metallic materials gain space in implantable materials field based on the applications that can fulfill. Beside Mg-based alloys a new class of metallic materials is under development, alloys based on Fe, in order to improve the corrosion rate, one of the disadvantages of magnesium alloys, and the mechanical properties of the implant. In this article we present the steps took to obtain a biodegradable FeMnSi alloy with metallic additions and few preliminary results about the chemical composition (X-ray dispersive energy analyze EDS) of the sample and the influence of hardening heat treatment on chemical composition. After the melting and pouring stages the new material was analyzed.
23

Janik-Czachor, M. "Passivity of Fe-Ni base amorphous alloys." ISIJ International 31, no. 2 (1991): 149–53. http://dx.doi.org/10.2355/isijinternational.31.149.

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24

Kikuchi, M., T. Nakayama, and S. Kadowaki. "Magnetoelastic effects of Fe-Pd base alloys." Journal of the Magnetics Society of Japan 13, no. 2 (1989): 253–56. http://dx.doi.org/10.3379/jmsjmag.13.253.

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25

Kishida, M., S. Kadowaki, and T. Nakayama. "Magnetoelastic Anisotropy of Fe-Pd Base Alloy." Journal of the Magnetics Society of Japan 14, no. 5 (1990): 707–11. http://dx.doi.org/10.3379/jmsjmag.14.707.

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26

Kikuchi, M., T. Nakayama, and S. Kadowaki. "Magnetoelastic Effects of Fe-Pd Base Alloys." IEEE Translation Journal on Magnetics in Japan 5, no. 6 (June 1990): 438–44. http://dx.doi.org/10.1109/tjmj.1990.4564292.

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27

Chin, T. S., C. K. Chao, C. Y. Lin, J. C. Shih, S. X. Zhou, Z. C. Lu, L. Wang, and F. F. Chen. "Novel tin-containing fe-base glassy alloys." IEEE Transactions on Magnetics 39, no. 5 (September 2003): 3016–18. http://dx.doi.org/10.1109/tmag.2003.815876.

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28

Kanter, Daniel, Yves Bolender, Christophe Rapin, and Marie-Pierryle Filleul. "L’effet mémoire de forme est-il une réalité clinique pour le 35° Copper Ni-Ti® ? Étude par calorimétrie différentielle à balayage." L'Orthodontie Française 84, no. 3 (September 2013): 259–69. http://dx.doi.org/10.1051/orthodfr/2013057.

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Introduction : Les alliages à base de nickel-titane-cuivre sont censés exprimer un effet mémoire de forme : refroidis en phase basse température puis soumis à une déformation apparemment plastique, ils devraient retrouver leur forme initiale par simple réchauffage en phase haute température. Les alliages à base de nickel-titane peuvent présenter différentes phases cristallographiques : martensite, austénite et une phase intermédiaire inconstante, la phase R. L’effet mémoire de forme est généralement associé à la transformation de martensite en austénite mais il peut aussi accompagner la transformation de phase R en austénite. Les températures buccales n’étant pas compatibles avec un alliage totalement martensitique, la présente étude vise, pour le 35° Copper Ni-Ti®, à rechercher la présence de phase R aux températures buccales et donc la possibilité d’exploiter l’effet mémoire de forme de la phase R en clinique. Matériels et méthodes : Trente fils 35° Copper Ni-Ti® provenant de deux lots distincts ont été consécutivement examinés par calorimétrie différentielle à balayage en cycles partiels, limités aux températures rencontrées dans la cavité buccale (de 0 °C à 50 °C). La présence d’une phase cristallographique intermédiaire a été recherchée sur les thermogrammes. Les températures de transformation ont été déterminées et les deux lots ont été comparés par le test U de Mann et Whitney. Résultats : Au chauffage, tous les fils sont passés directement de martensite en austénite. Af (moyenne = 33,5 °C, écart-type = 0,8 °C) était généralement inférieure à la température indiquée par le fabricant et une différence statistiquement significative (p ≤ 0,01) a été observée entre les deux lots. Conclusions : La présence de phase R n’a pas été détectée et les températures de transformation n’étaient pas constantes. Cette étude met en question la réalité clinique d’un effet mémoire de forme pour les fils 35° Copper Ni-Ti®.
29

Lee, Myung Hyun, K. S. Oh, Y. K. Kim, H. B. Lim, Deuk Yong Lee, and Nam Sik Oh. "Base-Coated Zirconia Brackets for Orthodontics." Key Engineering Materials 330-332 (February 2007): 1421–24. http://dx.doi.org/10.4028/www.scientific.net/kem.330-332.1421.

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Yttria and iron co-doped tetragonal zirconia polycrystals ((Y, Fe)-TZPs) were investigated to evaluate the feasibility for the ceramic bracket application. Presintered the (Y,Fe)-TZPs brackets were machined, abraded and coated with granule spray containing 10~50 wt% of flux. Finally, the base-coated brackets were sintered. Roughness of the coated surface was decreased to 13 um and 10 um when the flux content was 30 wt% and 50 wt%, respectively. It may be due to the fusion and the collapse of the granules as a result of the high amount of flux. Better adhesion to the base surface of the brackets and irregular shape were observed by raising the amount of flux in the slurries. Wetting angle of ethylene glycol droplet on the (Y,Fe)-TZP bare surface was determined to be 41.85°, however, the angle became 0° after the granule spraying treatments. The (Y,Fe)-TZP brackets exhibited uniform embossed base and good wetting. The newly developed base-coated bracket could be highly applicable to enhance retention and to reduce adhesive resin remnant during the bracket debonding.
30

Montavon, G., C. Coddet, D. Cornu, J. C. Garcia, and E. Fauvet. "La projection thermique : une voie nouvelle pour la mise en forme des alliages à base de nickel." Matériaux & Techniques 87, no. 5-6 (1999): 43–51. http://dx.doi.org/10.1051/mattech/199987050043.

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31

MATHON, M. H., F. MAURY, A. BARBU, N. SMETNIANSKY, N. LORENZELLI, C. H. DE NOVION, and F. BOUE. "Etude de la précipitation du cuivre sous irradiation électronique dans des alliages dilués à base de fer." Le Journal de Physique IV 04, no. C3 (February 1994): C3–193—C3–197. http://dx.doi.org/10.1051/jp4:1994327.

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32

Sisin, Noor Nabilah Talik, Merfat Algethami, Awatef S. Assran, and Wan Nordiana Rahman. "Analysis of Novel Schiff Base-Fe Complexes Against Breast Cancer Cells’ Viability." Key Engineering Materials 965 (November 28, 2023): 59–68. http://dx.doi.org/10.4028/p-cnfqt2.

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Two potential novels Schiff base iron (Fe) complexes Fe-L2 and Fe-L3 (where L2= N, N'-bis (o-hydroxyacetophenone) ethylenediamine and L3= N, N'-bis (o-hydroxybenzaldehyde) phenylenediamine) were synthesized from interaction a hot methanolic solution of each ligand L2 or L3 (0.01mole) with the appropriate amount of Fe (NO3)3.9H2O metal salt (0.01mole). This study investigated the cytotoxicity induced by both complexes (0.1 to 100 µg/ml) in MCF-7 and MDA-MB 231 cell lines. After 24 hours of treatment, the cell viabilities of both MCF-7 and MDA-MB-231 cells were linearly proportional to the Fe-L2 concentrations. A higher concentration of Fe-L2 would cause higher cell killings. On the other hand, most of the Fe-L3 concentrations caused total cell deaths for both cell lines, except for the lowest concentration (0.1 µg/ml). Fe-L2 and Fe-L3 also caused lower cell viability of MDA-MB-231 cells compared to MCF-7 cells. Overall, the obtained Fe-L3 is more toxic than Fe-L2 in breast cancer cells. It is suggested that the Fe-L3 is an excellent agent against breast cancer cells; meanwhile, the Fe-L2 is biocompatible and a good support in medical applications, especially as a radiosensitizer in radiotherapy.
33

Leineweber, A., H. Becker, A. Boev, I. A. Bobrikov, A. M. Balagurov, and I. S. Golovin. "Fe13Ga9 intermetallic in bcc-base Fe–Ga alloy." Intermetallics 131 (April 2021): 107059. http://dx.doi.org/10.1016/j.intermet.2020.107059.

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34

Shibata, Takashi, Yukoh Shudo, and Yuichi Yoshino. "Precipitates in Wrought Ni-Fe Base Superalloy 706." Journal of the Japan Institute of Metals 60, no. 9 (1996): 802–8. http://dx.doi.org/10.2320/jinstmet1952.60.9_802.

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35

Oppenkowski, André, and Werner Theisen. "Toughness of Fe-Base Materials Containing Hard Phases." Materials Testing 50, no. 3 (March 2008): 150–56. http://dx.doi.org/10.3139/120.100869.

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36

Janik‐Czachor, M., and H. Viefhaus. "Passivity of Fe‐Ni Base Metal‐Metalloid Glasses." Journal of The Electrochemical Society 136, no. 9 (September 1, 1989): 2481–85. http://dx.doi.org/10.1149/1.2097438.

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37

Ohnuma, S., Y. Nakanouchi, C. Graham, and T. Masumoto. "Magnetic properties of Fe-base amorphous ultrafine particles." IEEE Transactions on Magnetics 21, no. 5 (September 1985): 2038–43. http://dx.doi.org/10.1109/tmag.1985.1064020.

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38

Shinozaki, K. "Welding and joining Fe and Ni‐base superalloys." Welding International 15, no. 8 (January 2001): 593–610. http://dx.doi.org/10.1080/09507110109549411.

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39

Kazimierzak, B., M. Prignon, Ch Lecomte‐Mertens, and D. Coutsouradis. "Fe Base ODS alloys with improved mechanical strength." Anti-Corrosion Methods and Materials 37, no. 10 (October 1990): 4–9. http://dx.doi.org/10.1108/eb007280.

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40

Sano, Keisuke, Naoko Oono, Shigeharu Ukai, Shigenari Hayashi, Toshihiko Inoue, Shinichiro Yamashita, and Tsunemitsu Yoshitake. "γ″-Ni3Nb precipitate in Fe–Ni base alloy." Journal of Nuclear Materials 442, no. 1-3 (November 2013): 389–93. http://dx.doi.org/10.1016/j.jnucmat.2013.07.037.

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41

Kazimierzak, B., M. Prigon, and D. Coutsouradis. "Fe base ODS alloys with improved mechanical strength." Metal Powder Report 45, no. 10 (October 1990): 699–702. http://dx.doi.org/10.1016/0026-0657(90)90938-d.

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42

Hase, H., I. Yamashita, S. Tokuono, and M. Wakamiya. "Stress Sensitive Property of Fe-base Amorphous Alloy." IEEE Translation Journal on Magnetics in Japan 2, no. 8 (August 1987): 754–55. http://dx.doi.org/10.1109/tjmj.1987.4549600.

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43

Yin, Ruchuan. "Fe-base alloys in CH4/H2carburizing gas mixtures." Materials at High Temperatures 21, no. 4 (January 2004): 205–11. http://dx.doi.org/10.1179/mht.2004.024.

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44

Bouabdallah, M., and G. Cizeron. "Quelques aspects sur l'élaboration par frittage des alliages à mémoire de forme à base de Cu-Al-Ni." Journal de Physique IV (Proceedings) 113 (January 2004): 57–60. http://dx.doi.org/10.1051/jp4:20040013.

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45

Coudurien, Lucien, Didier Pique, and Nicolas Eustathopoulos. "Étude expérimentale et théorique de la mouillabilité du fer solide par des alliages de brasure à base d’argent." Journal de Chimie Physique 84 (1987): 205–7. http://dx.doi.org/10.1051/jcp/1987840205.

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46

Belkebir, A., and A. Kobylanski. "Lois de Comportement à chaud avec Recristallisation Dynamique. Application au cas des Alliages à Base de Fer Pur." Le Journal de Physique IV 05, no. C3 (April 1995): C3–165—C3–175. http://dx.doi.org/10.1051/jp4:1995314.

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47

Hakiki, N., D. Colin, M. Da Cunha Belo, and O. de Bouvier. "Elude des films d’oxyde formés sur les aciers et alliages inoxydables à base de nickel en milieu primaire." Revue de Métallurgie 90, no. 9 (September 1993): 1157. http://dx.doi.org/10.1051/metal/199390091157.

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48

Bohn, Antoine, Clémence Chinaux-Chaix, Khaled Cheaib, Régis Guillot, Christian Herrero, Katell Sénéchal-David, Jean-Noël Rebilly, and Frédéric Banse. "Base-controlled mechanistic divergence between iron(iv)-oxo and iron(iii)-hydroperoxo in the H2O2 activation by a nonheme iron(ii) complex." Dalton Transactions 48, no. 45 (2019): 17045–51. http://dx.doi.org/10.1039/c9dt03487k.

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An FeII complex reacts with excess H2O2 in the presence of sub-stoichiometric NEt3 to give FeIV(O) and FeIII(OOH) reactive species following a base-dependent and a base-independent pathway, respectively.
49

Carlsson, A. E., and P. J. Meschter. "Relative stabilities of L12 and DO22 structures in ternary MAl3-base aluminides." Journal of Materials Research 5, no. 12 (December 1990): 2813–18. http://dx.doi.org/10.1557/jmr.1990.2813.

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The effects of additions of Fe and Zn on the relative stabilities of the cubic L12 and tetragonal DO22 structures in TiAl3- and NbAl3-base alloys are evaluated using ab initio electronic band calculations. The Fe or Zn distribution on the aluminum sublattice is modeled by a periodic array which corresponds to alloying additions of 12.5 or 25 at.% Fe or Zn. Addition of 12.5 at.% Fe is sufficient to stabilize the L12 structure in both TiAl3- and NbAl3-base alloys. Interpolation of the structural energy differences suggests that the DO22 and L12 structures have the same energy at ∼4.5 at.% Fe in Ti(Al, Fe)3, in agreement with experiment,1,2 and at ∼11 at.% Fe in Nb(Al, Fe)3. The L12 stabilization effect per atom of Zn in Nb(Al, Zn)3 is approximately half as large as that of Fe. The stable structure is the one for which the Fermi energy lies in a minimum in the density-of-states (DOS) distribution, as in the binary compounds. The results are explained on the basis of a simple model involving charge transfer to alloying additions on the Al sublattice.
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VERMEULEN, J. L., O. ACHER, and F. RAVEL. "Relations entre la perméabilité en fréquence et les propriétés structurales des alliages Co-Fe-Si-B déposés par pulvérisation ionique." Le Journal de Physique IV 02, no. C3 (December 1992): C3–235—C3–238. http://dx.doi.org/10.1051/jp4:1992335.

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