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OPTIMIZATION OF POWDER METALLURGY (P/M) ROUTE FOR FABRICATION OF METAL MATRIX COMPOSITES REINFORCED BY ULTRA HIGH TEMPERATURE CERAMICS

机译：超高温陶瓷加固金属基复合材料制造粉末冶金（P / M）途径的优化

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Metal Matrix Composites (MMCs) have attracted much attention due to their capabilities to offer a various range of mechanical and physical properties. These advantages have made MMCs competitive candidates for wear-resistant and high temperature applications in aerospace and automotive industries. In the present work, Iron-based matrix (Fe) has been reinforced with Titanium Diboride (TiB_2) ceramic particles. TiB2 ceramic particles are expected to be a suitable reinforcement for iron and steel matrix composites due to their high thermal stability at very high temperatures, high modulus of elasticity, good wettability, low density and relatively strong bonding between matrix and reinforcement. Vickers micro hardness test was performed on MMC samples at different stages of fabrication process to develop a comparative scheme for a cost-effective optimized route to fabricate Fe-TiB2 via powder metallurgy process.

机译：由于其提供各种机械和物理性质，金属基质复合材料（MMCS）引起了很多关注。这些优势使MMCS竞争候选人在航空航天和汽车工业中的耐磨和高温应用。在本作本作中，用钛二硼（TIB_2）陶瓷颗粒加固铁基质（Fe）。由于它们在非常高的温度下，高温模量，良好的润湿性，低密度和基质之间的粘接性，因此预计Tib 2陶瓷颗粒预计是钢铁基质复合材料的合适增强材料。在制造过程的不同阶段的MMC样品上进行Vickers微硬度测试，以开发用于通过粉末冶金过程制造Fe-Tib2的经济有效优化途径的比较方案。

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《Materials Science and Technology Conference》|2016年|1 CD-ROM|共8页
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作者
Babak Jahani; Mehdi Salimi Jazi; Fardad Azarmi;
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中图分类 TG14-532;
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Powder Metallurgy; Optimization; Ultra High Temperature Ceramics;

机译：粉末冶金;优化;超高温陶瓷;

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专利

1. Fabrication of TiB2 nanoparticulates-reinforced aluminum matrix composites by powder metallurgy route [J] . Vajargah Pouya Hosseini, Abdizadeh Hossein, Baghchesara Mohammad Amin Journal of Composite Materials . 2015,第25期

机译：粉末冶金法制备TiB2纳米颗粒增强铝基复合材料
2. Fabrication of single crystalline diamond reinforced aluminum matrix composite by powder metallurgy route [J] . Hansang Kwon, Marc Leparoux, Jean-Marc Heintz, Metals and Materials International . 2011,第5期

机译：粉末冶金法制备单晶金刚石增强铝基复合材料
3. Fabrication of Single Crystalline Diamond Reinforced Aluminum Matrix Composite by Powder Metallurgy Route [J] . Hansang Kwon, Marc Leparoux, Jean-Marc Heintz Metals and Materials International . 2011,第5期

机译：粉末冶金法制备单晶金刚石增强铝基复合材料
4. OPTIMIZATION OF POWDER METALLURGY (P/M) ROUTE FOR FABRICATION OF METAL MATRIX COMPOSITES REINFORCED BY ULTRA HIGH TEMPERATURE CERAMICS [C] . Babak Jahani, Mehdi Salimi Jazi, Fardad Azarmi Materials Science and Technology Conference . 2016

机译：超高温陶瓷加固金属基复合材料制造粉末冶金（P / M）途径的优化
5. Discontinuously reinforced copper-matrix composites by powder metallurgy. [D] . Yih, Pay. 1996

机译：粉末冶金法不连续增强的铜基复合材料。
6. Comparison of Reactive and Non-Reactive Spark Plasma Sintering Routes for the Fabrication of Monolithic and Composite Ultra High Temperature Ceramics (UHTC) Materials [O] . Roberto Orrù, Giacomo Cao 2013

机译：整体和复合超高温陶瓷（UHTC）材料的反应性和非反应性放电等离子烧结路线的比较
7. Structural and mechanical behaviour of 5 Al2O3-reinforced Fe metal matrix composites (MMCs) produced by powder metallurgy (P/M) route [O] . PALLAV GUPTA, DEVENDRA KUMAR, OM PARKASH, 2013

机译：粉末冶金（P / M）途径生产的5％Al 2 O 3增强的Fe金属基质复合材料（MMC）的结构和力学行为

OPTIMIZATION OF POWDER METALLURGY (P/M) ROUTE FOR FABRICATION OF METAL MATRIX COMPOSITES REINFORCED BY ULTRA HIGH TEMPERATURE CERAMICS

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