Ti(C,N)-Fe/Ni/FeNi Core-Shell Structures for Cermets Processing

机译：用于金属陶瓷加工的Ti（C，N）-Fe / Ni / FeNi核壳结构

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This work proposes an alternative bottom-up approach to build cermet microstructures through the synthesis of metal hydroxide nanoparticles (NPs) on the surface of Ti(C,N) micrometric particles, creating core-shell Ti(C,N)-Ni(OH)_2 and Ti(C,N)-FeO(OH) and their subsequent calcination cycle. This calcination cycle will help us to obtain Ti(C,N)- based cermets with fine microstructure and low amount of metal binder avoiding mechanical milling, the risks of handling nanoparticles, as well as overcoming the lack of availability and the high prices of those metal nanoparticles. The obtained structures were characterized by differential thermal analysis (DTA), thermogravimetry (TG), X-Ray Diffraction (XRD) and field emission scanning electron microscopy (FE-SEM) and energy-dispersive X-Ray spectroscopy (EDX).

机译：这项工作提出了一种替代的自下而上的方法，该方法通过在Ti（C，N）微米级颗粒表面上合成金属氢氧化物纳米颗粒（NPs）来生成金属壳金属陶瓷，从而形成核壳Ti（C，N）-Ni（OH））_2和Ti（C，N）-FeO（OH）及其后续的煅烧周期。该煅烧周期将帮助我们获得具有良好微观结构和少量金属粘合剂的Ti（C，N）基金属陶瓷，从而避免机械研磨，处理纳米颗粒的风险，以及克服这些金属的缺乏和高昂价格金属纳米粒子。通过差热分析（DTA），热重分析（TG），X射线衍射（XRD）和场发射扫描电子显微镜（FE-SEM）以及能量色散X射线光谱（EDX）对获得的结构进行了表征。

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来源
《World PM2016 Congress;European Powder Metallurgy Association》|2016年|1-6|共6页
会议地点 Hamburg(DE)
作者
M.Dios; Z.Gonzalez; C.Romero; E.Gordo; B.Ferrari;
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作者单位

Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;

Institute for Ceramic and Glass, CSIC, Madrid, Spain Hispano Italiana de Revestimientos, S.A. Santander, Spain;

Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;

Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;

Institute for Ceramic and Glass, CSIC, Madrid, Spain;

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机译：105064碳添加对Ti（C，N）-feni金属丝的微观结构和小规模硬度的影响
2. Microwave absorption properties of FeNi_3 submicrometre spheres and SiO_2@FeNi_3 core-shell structures [J] . Yan S.J., Zhen L., Xu C.Y., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2010,第24期

机译：FeNi_3亚微米球和SiO_2 @ FeNi_3核-壳结构的微波吸收特性
3. Effects of sintering temperature and nano Ti(C,N) on the microstructure and mechanical properties of Ti(C,N) cermets cutting tool materials with low Ni-Co [J] . Hao Yun, Bin Zou, Jun Wang Materials Science and Engineering . 2017,第sepa29期

机译：烧结温度和纳米Ti（C，N）对低Ni-Co的Ti（C，N）金属陶瓷切削刀具材料的组织和力学性能的影响
4. Ti(C, N)-Fe/Ni/FeNi Core-Shell Structures for Cermets Processing [C] . M. Dios, Z. Gonzalez, C. Romero, World Powder Metallurgy Congress Exhibition . 2016

机译：用于金属膜处理的TI（C，N）-FE / NI / FENI核心壳结构
5. Improvement of the functional properties of nanostructured Ti-Ni shape memory alloys by means of thermomechanical processing. [D] . Kreitcberg, Alena. 2014

机译：通过热机械加工改善纳米结构的Ti-Ni形状记忆合金的功能性能。
6. Angular Dependence of the Ferromagnetic Resonance Parameters of Ti/FeNi6/Ti/Cu/Ti/FeNi/Ti6 Nanostructured Multilayered Elements in the Wide Frequency Range [O] . Sergei V. Shcherbinin, Andrey V. Svalov, Grigory Y. Melnikov, 2020

机译：Ti / FeNi 6 / Ti / Cu / Ti / FeNi / Ti 6纳米结构多层元件在宽频率范围内的铁磁共振参数的角度依赖性
7. Angular Dependence of the Ferromagnetic Resonance Parameters of Ti/FeNi6/Ti/Cu/Ti/FeNi/Ti6 Nanostructured Multilayered Elements in the Wide Frequency Range [O] . Sergei V. Shcherbinin, Andrey V. Svalov, Grigory Y. Melnikov, 2020

机译：Ti / Feni 6 / Ti / Cu / Ti / Ti / Ti / Ti / Feni / Ti 6纳米结构多层元素在宽频率范围内的角磁性依赖性的角度依赖性
8. 100 by 100 Group Relative Covariance Matrices of exp 46 Ti(N,p), exp 58 Ni(N,p), exp 58 Ni(N,2N), exp 56 Fe(N,p), exp 47 Ti(N,Np), exp 47 Ti(N,p), exp 48 Ti(N,Np), exp 48 Ti(N,p). Using Greenwood's Energy Structure for the REAL-80 [R] . Muir, D., Ertek, C., Cross, B. 1980

机译：100×100组相对协方差矩阵exp 46 Ti（N，p），exp 58 Ni（N，p），exp 58 Ni（N，2N），exp 56 Fe（N，p），exp 47 Ti（N， Np），exp 47 Ti（N，p），exp 48 Ti（N，Np），exp 48 Ti（N，p）。将Greenwood的能量结构用于REaL-80

Ti(C,N)-Fe/Ni/FeNi Core-Shell Structures for Cermets Processing

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