A family of oxide–carbide–carbon and oxide–nitride–carbon nanocomposites
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This paper describes a powerful and versatile approach that combines the benefits of sol-gel processing with controlled phase separation to yield oxide-carbide-carbon or oxide-nitride-carbon nanocomposites.Keywords:
Carbon nitride
Carbon fibers
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The method for the electrolytic isolation of carbides and nitrides from 18%Cr, 8%Ni, 0.09%C austenitic and 17%Cr, 0.11%C ferritic stainless steels, and the precipitation behaviors of the carbides and nitrides in the latter steel under heat treatment have been studied. The results obtained are as follows: (1) For the isolation of carbides from the austenitic stainless steel, the electrolyte consisting of 5% (vol) HCl, 95% (vol) methyl alcohol and 36 g zinc chloride is most suitable. The alcoholic iodine method used in place of electrolysis is also favourable in this case. (2) For the isolation of carbides from the ferritic stainless steel, the electrolyte consisting of 3% (vol) HCl, 97% (vol) methyl alcohol and 36 g of zinc chloride is best fitted. The nitrides can be isolated simultaneously in this case. (3) The precipitation of the carbides and nitrides from the quenched ferritic stainless steel does not occur at the temperatures over 1000° or under 500°C.
Austenitic stainless steel
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Many irons in the fire: Central to the image are the iron nitrides and carbides; drawn to give an intuitive impression of their structures. They are surrounded by schematics of the main application prospects of iron carbides and nitrides, such as lithium ion batteries, ORR catalysts, magnetic materials, and Fischer–Tropsch synthesis catalysts. In this review, in addition to the synthesis strategy, the structure and application of iron carbides and nitrides will be shown. For more information, see the review by H. Yang et al. page 8922 ff.
Iron nitride
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Materials processing
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A summary was made on the experimental research on the possibility of preparing carbon nitride crystal with high pressure,moderate pressure and conventional pressure synthetic method.The reason for the fail of carbon nitride synthesis was analysed and relevant graphitoid carbon nitride and unformed carbon nitrides were introduced in the article.
Carbon nitride
Carbon fibers
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基于 Cu 的 thermosensitive nanocomposites 被高精力球 milling 做。基于 Cu 的 thermosensitive nanocomposites 的微观结构和性质被传播电子显微镜学(TEM ) 和 themosensitivity 测试学习。milling 时间在微观结构的效果和基于 Cu 的 nanocomposite 材料的 thermosensitivity 被研究。基于 Cu 的 nanocomposite 能被高精力球 milling 做的 Theresults 表演。作为他们, illing 时间增加,在 nanocomposite 的铜粒子尺寸减少,然后, nanocomposite 的 thethermoexpansivity 增加。当 milling 时间直到 100 h 时, nanocomposite 具有最好的 thermoexpansivity。在 35-45 deg C, nanocomposite 显示出好 thermosensitivity。
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This chapter contains sections titled: Introduction Ceramic/Metal Nanocomposites Nanocomposites by Mechanical Alloying Nanocomposites from Sol–Gel Synthesis Nanocomposites by Thermal Spray Synthesis Metal Matrix Nanocomposites Bulk Ceramic Nanocomposites for Desired Mechanical Properties Thin-Film Nanocomposites: Multilayer and Granular Films Nanocomposites for Hard Coatings Carbon Nanotube-Based Nanocomposites Functional Low-Dimensional Nanocomposites Encapsulated Composite Nanosystems Applications of Nanocomposite Wires Applications of Nanocomposite Particles Inorganic Nanocomposites for Optical Applications Inorganic Nanocomposites for Electrical Applications Nanoporous Structures and Membranes: Other Nanocomposites Nanocomposites for Magnetic Applications Particle-Dispersed Magnetic Nanocomposites Magnetic Multilayer Nanocomposites Nanocomposite Structures having Miscellaneous Properties Concluding Remarks on Metal/Ceramic Nanocomposites
Nanoporous
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Carbon nitride
Carbon fibers
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Carbon nitride
Carbon fibers
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