Results 281 to 290 of about 1,394,431 (303)
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ZnS–Zn nanocables and ZnS nanotubes
Chemical Communications, 2003ZnS-Zn nanocables and ZnS nanotubes have been synthesized by a thermochemical process in a simple and safe way. The as-prepared nanocables consist of a single crystal Zn core with a diameter of 20 nm and a polycrystalline ZnS sheath with a thickness of 8 nm. The evaporation of the Zn core leads to the formation of ZnS nanotubes.
Ying-Chun, Zhu +2 more
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Journal of Alloys and Compounds, 2015
Abstract All available phase diagram and thermodynamic data for the Y–Zn, Eu–Zn, Gd–Zn, Tb–Zn, Dy–Zn, Ho–Zn, Er–Zn, Tm–Zn, Yb–Zn and Lu–Zn systems have been collected and critically assessed. Optimized model parameters for the thermodynamic properties of all phases have been obtained.
Zhijun Zhu, Arthur D. Pelton
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Abstract All available phase diagram and thermodynamic data for the Y–Zn, Eu–Zn, Gd–Zn, Tb–Zn, Dy–Zn, Ho–Zn, Er–Zn, Tm–Zn, Yb–Zn and Lu–Zn systems have been collected and critically assessed. Optimized model parameters for the thermodynamic properties of all phases have been obtained.
Zhijun Zhu, Arthur D. Pelton
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Thermodynamic assessment of the Ca–Zn, Sr–Zn, Y–Zn and Ce–Zn systems
Calphad, 2008Abstract Published experimental thermodynamic and phase diagram data for the Ca–Zn, Sr–Zn, Y–Zn and Ce–Zn systems have been critically evaluated to provide assessed thermodynamic parameters for the different phases of the systems. The parameters allow all thermodynamic properties and phase boundaries for each system to be calculated within reasonable
Philip Spencer +4 more
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Journal of Alloys and Compounds, 2015
Abstract All available phase diagram and thermodynamic data for the Sc–Zn, La–Zn, Ce–Zn, Pr–Zn, Nd–Zn, Pm–Zn and Sm–Zn systems have been collected and critically assessed. Optimized model parameters for the thermodynamic properties of all phases have been obtained.
Zhijun Zhu, Arthur D. Pelton
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Abstract All available phase diagram and thermodynamic data for the Sc–Zn, La–Zn, Ce–Zn, Pr–Zn, Nd–Zn, Pm–Zn and Sm–Zn systems have been collected and critically assessed. Optimized model parameters for the thermodynamic properties of all phases have been obtained.
Zhijun Zhu, Arthur D. Pelton
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Interfacial tensions in Zn, Zn-Sn and Zn-Sn-Pb systems
Journal of the Less Common Metals, 1977Abstract Intergranular and solid-liquid interfacial tensions have been determined for Zn-Sn and Zn-Sn-Pb systems. The temperature coefficient of the intergranular tension of solid zinc is negative. Solid-liquid interfacial tension for the Zn-Sn system increases as the tin content increases; the σsl values fit an equation derived from statistical ...
PASSERONE A, EUSTATHOPOULOS N, DESRE P
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Zn, Zn Alloys, and Zn Coatings
Materials Performance, 2005“Corrosion Basics” features explanations of corrosion and its control as well as problem-solving ideas obtained from corrosion literature and guest authors. MP welcomes your comments and suggestions.
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9 ZNS (I) ZNS (Zentralnervensystem) Zentralnervensystem (ZNS)
2017Kirsten Beitzel +37 more
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