Relevant bibliographies by topics / Titane borure

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Academic literature on the topic 'Titane borure'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Titane borure"

1

Park, Tae-Jin, Simon Li, and Alexandra Navrotsky. "Thermochemistry of glass forming Y-substituted Sr-analogues of titanite (SrTiSiO5)." Journal of Materials Research 24, no. 11 (2009): 3380–86. http://dx.doi.org/10.1557/jmr.2009.0413.

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Strontium titanium silicates are possible oxide forms for immobilization of short lived fission products in radioactive waste. Through beta decay, strontium decays to yttrium, and then to zirconium. Therefore, not only the stability of Sr-loaded waste forms, but also that of a potential decay product series with charge-balance in a naturally occurring mineral or a ceramic is of fundamental importance. Strontium titanosilicate (SrTiSiO5) is the Sr-analogue of titanite (CaTiSiO5). To incorporate the reaction 3Sr2+ = 2Y3+ + vacancy in the titanite composition, Y-substituted Sr-analogues of titanite, (Sr1–xY2/3x)TiSiO5 (x = 0, 0.25, 0.5, 0.75) were prepared by high temperature synthesis and were found to form glass upon cooling. The Y-end-member (Y2/3TiSiO5, x = 1) crystallized to a mixture of Y2TiSiO7, TiO2, and SiO2 upon quenching in air. The enthalpies of formation of Y-substituted Sr-titanite glasses were obtained from drop solution calorimetry in a molten lead borate (2PbO·B2O3) solvent at 702 °C. The enthalpies of formation from constituent oxides are exothermic but become less so with increasing Y content. The thermodynamic stability of the Y-substituted Sr-analogue of crystalline titanite may become marginal with increasing yttrium content.
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2

Kazamer, Norbert, Stephania Kossman, István Baranyi, et al. "Effet de l’addition de TiB2 sur les propriétés mécaniques et tribologiques de revêtements NiCrBSi déposés par projection thermique." Matériaux & Techniques 106, no. 2 (2018): 202. http://dx.doi.org/10.1051/mattech/2018026.

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L’influence de TiB2 dans des revêtements à base nickel est étudiée du point de vue microstructurale (identification des phases et mesure de la porosité), mécanique (dureté et module d’élasticité par indentation instrumentée) et du comportement mécanique (résistance au frottement par usure pion/disque). Dans les deux revêtements à 2,5 et 10 % de TiB2, on note la présence de siliciures, carbures et borures mais uniquement la présence d’oxyde de titane pour la teneur à 10 %. La porosité est plus élevée (6 %) lorsque la teneur en TiB2 est plus petite, elle est de 1,2 % pour l’autre revêtement. Après une discussion sur l’effet de taille et l’influence de la porosité sur la mesure des propriétés par indentation, la dureté est trouvée sensiblement la même dans les deux cas, autour de 3 GPa, alors que le module d’élasticité semble plus élevé (175 GPa au lieu de 150 GPa) pour la teneur la plus élevée en TiB2. Enfin, le coefficient de frottement est plus grand dans la zone de transition ou de rodage avant d’atteindre la même valeur moyenne de 0,6 dans le régime stationnaire.
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3

Bach, Marc A., Torsten Beweries, Vladimir V. Burlakov, et al. "Reactions of 1-Titana- and 1-Zirconacyclopent-3-ynes with Tris(pentafluorophenyl)borane†." Organometallics 24, no. 24 (2005): 5916–18. http://dx.doi.org/10.1021/om0507880.

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4

García-Aguilar, Jaime, Miriam Navlani-García, Ángel Berenguer-Murcia, et al. "Enhanced ammonia-borane decomposition by synergistic catalysis using CoPd nanoparticles supported on titano-silicates." RSC Advances 6, no. 94 (2016): 91768–72. http://dx.doi.org/10.1039/c6ra21302b.

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5

Komova, O. V., V. I. Simagina, G. V. Odegova, Yu A. Chesalov, O. V. Netskina, and A. M. Ozerova. "Low-temperature decomposition of ammonia borane in the presence of titania." Inorganic Materials 47, no. 10 (2011): 1101–6. http://dx.doi.org/10.1134/s0020168511100116.

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6

Singh, Lakhwant, Vanita Thakur, R. Punia, R. S. Kundu, and Anupinder Singh. "Structural and optical properties of barium titanate modified bismuth borate glasses." Solid State Sciences 37 (November 2014): 64–71. http://dx.doi.org/10.1016/j.solidstatesciences.2014.08.010.

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7

Shafaghi, Romina, Omar Rodriguez, Anthony W. Wren, et al. "In vitro evaluation of novel titania‐containing borate bioactive glass scaffolds." Journal of Biomedical Materials Research Part A 109, no. 2 (2020): 146–58. http://dx.doi.org/10.1002/jbm.a.37012.

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8

Yousef, Ayman, Nasser A. M. Barakat, and Hak Yong Kim. "Electrospun Cu-doped titania nanofibers for photocatalytic hydrolysis of ammonia borane." Applied Catalysis A: General 467 (October 2013): 98–106. http://dx.doi.org/10.1016/j.apcata.2013.07.019.

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9

Yan, Guo, Wang Guixiang, Dong Guojun, Gong Fan, Zhang Lili, and Zhang Milin. "Corrosion resistance of anodized AZ31 Mg alloy in borate solution containing titania sol." Journal of Alloys and Compounds 463, no. 1-2 (2008): 458–61. http://dx.doi.org/10.1016/j.jallcom.2007.09.037.

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10

Mariselvam, K., and Juncheng Liu. "Green emission and laser properties of Ho3+ doped titano lead borate (TLB) glasses for colour display applications." Journal of Solid State Chemistry 293 (January 2021): 121793. http://dx.doi.org/10.1016/j.jssc.2020.121793.

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