MECHANICAL REINFORCEMENT OF COPPER FILMS WITH CERAMIC NANOPARTICLES

机译：陶瓷纳米颗粒对铜膜的机械增强

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Metal matrix nanocomposites are promising materials for applications in aerospace, automotive and electronic industries due to their excellent mechanical and physical properties. Here, a new synthesis route is developed for the preparation of ceramic particulate reinforced metal films. The homogeneous distribution of different ceramic nanoparticles (TiO_2, TiC and SiC) in the range of 5 - 10 wt.% into copper films by a wet chemical approach results in metal matrix composites with metallic electrical conductivity and enhanced hardness and wear resistance. Reinforcing material and concentration thereof can be easily varied owing to the polymer precursor method that is established. Electrical conductivity is marginally impaired compared to pure copper films, but still in the range of metallic conductivity. Hardness is analyzed by nanoindentation of the films. Highest hardness is found for 10 wt.% TiO_2 in copper (H_(IT) = 1-39 GPa). Improved wear and scratch resistance are shown by a pencil hardness scratch test (Wolff-Wilborn, ISO 15 184).

机译：金属基纳米复合材料因其出色的机械和物理性能，是在航空航天，汽车和电子行业中应用的有前途的材料。在这里，为制备陶瓷颗粒增强金属膜开发了一条新的合成路线。通过湿化学方法将5-10重量％范围内的不同陶瓷纳米颗粒（TiO 2，TiC和SiC）均匀分布到铜膜中，得到具有金属导电性和增强的硬度和耐磨性的金属基质复合材料。由于已建立的聚合物前体方法，可以容易地改变增强材料及其浓度。与纯铜膜相比，电导率略有降低，但仍在金属电导率范围内。通过膜的纳米压痕分析硬度。发现铜中10 wt。％TiO_2的最高硬度（H_（IT）= 1-39 GPa）。铅笔硬度划痕测试（Wolff-Wilborn，ISO 15 184）显示出更高的耐磨性和划痕性。

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《Developments in strategic materials and computational design V》|2012年|361-366|共6页
会议地点 Daytona Beach FL(US)
作者
Annika Leifert; Nasser Mohamed-Noriega; Andreas Meier; Giovanni Mondin; Susanne Doerfler; Julia Grothe; Stefan Kaskel; Benjamin Schumm; Christian Nowka; Silke Hampel; E. Lopez Cuellar;
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Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Department of Inorganic Chemistry, Dresden University of Technology Dresden, Germany;

Chemical Surface and Reaction Technology Department, Fraunhofer Institute for Material and Beam Technology Dresden, Germany;

Institute for Solid State Research, Leibniz Institute for Solid State and Materials Research Dresden, Germany;

Institute for Solid State Research, Leibniz Institute for Solid State and Materials Research Dresden, Germany;

CIIDIT, FIME, Universidad Autonoma de Nuevo Leon Apodaca, N.L., Mexico;

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MECHANICAL REINFORCEMENT OF COPPER FILMS WITH CERAMIC NANOPARTICLES

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