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Synthesis and Strength of Al_4C_3 Nanorods-Reinforced Al Matrix Composites by in-Situ Reaction during Powder Metallurgy Process from Al-Carton Nanotube System

机译：铝纳米管系统粉末冶金工艺原位反应的合成与强度 - 增强Al基复合材料

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In recent years, high energy ball milling (HEBM) became the most popular method to disperse CNT in Al matrix composites (AMCs). At the sacrifice of homogenous dispersion, structure damage of CNT was inevitable and considered as a critical problem that limited the strengthening effect in AMCs. Some studies suggested that small amount of reaction product (Al_4C_3) from damaged CNT and Al contrarily contributed to the strengthening effect and the resulted enhancement in mechanical properties of CNT/A1 composites. Herein, a novel idea is put forward to synthesize Al_4C_3/Al composites by completely trarisforming CNT to in-situ Al_4C_3 nanorods for designing high-strength AMCs.

机译：近年来，高能量球铣削（HEBM）成为在Al基质复合材料（AMC）中分散CNT的最流行的方法。在均匀分散的牺牲时，CNT的结构损伤是不可避免的并且被认为是限于AMCs中强化效果的关键问题。一些研究表明，来自损伤的CNT和Al的少量反应产物（Al_4C_3）对CNT / A1复合材料的力学性能有贡献，并导致增强。这里，提出了一种新的思想，通过将CNT完全牵引到原位AL_4C_3纳米棒来设计用于设计高强度AMCs的al_4C_3 / Al复合材料。

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《粉体粉末冶金協会大会》|2014年||共1页
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Biao CHEN; Lei JIA; Shufeng LI;
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2. Reaction Synthesis of Titanium Matrix Composites Through Powder Metallurgy Processing Technique [J] . K. Srinivasa Vadayar, G. Poshal, V. V. Bhanu Prasad Transactions of the Indian Institute of Metals . 2011 ,第4a5期

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3. Reaction Synthesis of Titanium Matrix Composites Through Powder Metallurgy Processing Technique [J] . K. Srinivasa Vadayar, G. Poshal, V. V. Bhanu Prasad Transactions of the Indian Institute of Metals . 2011 ,第sa4a5期

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4. Synthesis and Strength of Al_4C_3 Nanorods-Reinforced Al Matrix Composites by in-Situ Reaction during Powder Metallurgy Process from Al-Carton Nanotube System [C] . Biao CHEN, Lei JIA, Shufeng LI 粉体粉末冶金協会大会 . 2014

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5. A finite element model for the simulation of powder metallurgy forming processes including metal matrix composites. [D] . Ramesh, Minisandram Seshadri. 1991

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Synthesis and Strength of Al_4C_3 Nanorods-Reinforced Al Matrix Composites by in-Situ Reaction during Powder Metallurgy Process from Al-Carton Nanotube System

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