Aluminum-graphite composite produced by mechanical milling and hot extrusion

机译：机械铣削和热挤出生产的铝 - 石墨复合材料

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Aluminum-graphite composites were produced by mechanical milling followed by hot extrusion. Graphite content was varied between 0 and 1 wt.%. Al-graphite mixtures were initially mixed in a shaker mill without ball, followed by mechanical milling in a High-energy simoloyer mill for 2 h under argon atmosphere. Milled powders were subsequently pressed at ～950 MPa for 2 min, and next sintered under vacuum for 3 h at 823 K. Finally, sintered products were held for 0.5 h at 823 K and hot extruded using indirect extrusion. Tension and compression tests were carried out to determine the yield stress and maximum stress of the materials. We found that the mechanical resistance increased as the graphite content increased. Microstructural characterization was done by transmission electron microscopy. Al-O-C nanofibers and graphite nanoparticles were observed in extruded samples by transmission electron microscopy. These nanoparticles and nanofibers seemed to be responsible of the reinforcement phenomenon.

机译：通过机械研磨生产铝 - 石墨复合材料，然后通过热挤出生产。石墨含量在0到1wt之间变化。％。最初在没有球的振荡器磨机中最初在振荡器磨机中混合，然后在氩气氛下在高能量Simoloyer磨机中进行机械研磨2小时。随后将研磨粉末在〜950MPa下压制2分钟，并在823k下在真空下烧结3小时。最后，将烧结产物在823K下保持0.5小时，并使用间接挤出将热挤出。进行张力和压缩试验以确定材料的屈服应力和最大应力。我们发现，随着石墨含量的增加，机械电阻增加。通过透射电子显微镜进行微观结构表征。通过透射电子显微镜在挤出的样品中观察到Al-O-C纳米纤维和石墨纳米粒子。这些纳米颗粒和纳米纤维似乎负责增强现象。

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《International Symposium on Metastable and Nano-Materials(ISMANAM-2005)》|1991年||共4页
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M.I. Flores-Zamora; I. Estrada-Guel; J. Gonzalez-Hernandez; M. Miki-Yoshida; R. Martinez-Sanchez;
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中图分类有色金属冶炼;
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nanostructured materials; metal matrix composites; mechanical properties;

机译：纳米结构材料;金属基质复合材料;机械性能;

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1. Aluminum-graphite composite produced by mechanical milling and hot extrusion [J] . M.I. Flores-Zamora, I. Estrada-Guel, J. Gonzalez-Hernandez Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2007,第0期

机译：机械研磨和热挤压生产的铝-石墨复合材料
2. Dry sliding tribological behavior and mechanical properties of Al2024-5 wt.%B_4C nanocomposite produced by mechanical milling and hot extrusion [J] . Alireza Abdollahi, Ali Alizadeh, Hamid Reza Baharvandi Materials & design . 2014,第mara期

机译：机械研磨和热挤压制备的Al2024-5 wt。％B_4C纳米复合材料的干滑动摩擦学行为和力学性能
3. Effect of SiC nanoparticles on manufacturing process, microstructure and hardness of Mg-SiC nanocomposites produced by mechanical milling and hot extrusion [J] . Penther Daniela, Ghasemi Alireza, Riedel Ralf, Materials Science and Engineering . 2018,第DECa19期

机译：SiC纳米颗粒对机械研磨和热挤压制备的Mg-SiC纳米复合材料的制造工艺，组织和硬度的影响
4. Aluminum-graphite composite produced by mechanical milling and hot extrusion [C] . M.I. Flores-Zamora, I. Estrada-Guel, J. Gonzalez-Hernandez, International Symposium on Metastable and Nano-Materials(ISMANAM-2005); 20050703-07; Paris(FR) . 2005

机译：机械研磨和热挤压生产的铝-石墨复合材料
5. Mechanical milling and annealing to produce nanoscale dispersion-strengthened cubic trialuminide composites. [D] . Le Claire, Jarod John. 2002

机译：机械研磨和退火，以生产纳米级分散增强的立方三酰亚胺复合材料。
6. Enhanced Strength and Ductility in Magnesium Matrix Composites Reinforced by a High Volume Fraction of Nano- and Submicron-Sized SiC Particles Produced by Mechanical Milling and Hot Extrusion [O] . Sepideh Kamrani, Daniela Hübler, Alireza Ghasemi, 2019

机译：机械研磨和热挤压生产的纳米级和亚微米级SiC颗粒的高体积分数增强了镁基复合材料的强度和延展性
7. Mechanical Behavior of Multiwalled Carbon Nanotube Reinforced 7075 Aluminum Alloy Composites Prepared by Mechanical Milling and Hot Extrusion [O] . Eduardo Uriza-Vega, Caleb Carreño-Gallardo, Claudia López-Meléndez, 2019

机译：多壁碳纳米管的机械性能加固7075铝合金复合材料，采用机械研磨和热挤压制备
8. Microstructure and mechanical properties of Ni(sub 3)Al(endash)Al(sub 2)O(sub 3) composites produced by hot extrusion. [R] . McKamey, C. G., Lee, E. H. 1990

机译：热挤压生产Ni（sub 3）al（endash）al（sub 2）O（sub 3）复合材料的微观结构和力学性能。

Aluminum-graphite composite produced by mechanical milling and hot extrusion

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