烧结粉末冶金TiC增强钨基复合材料工艺参数优化

Q2 Engineering
S. Sukumar , S. Saravanan , T. Ram Prabhu , P. Parameswaran
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引用次数: 3

摘要

采用粉末冶金法制备了不同浓度TiC的W-TiC复合材料。样品的制备采用高能球磨机。本文选取(田口分析)烧结温度、压实压力等优化参数作为输入,对应的输出为抗压强度和微观结构。通过改变三个方差对其抗压强度进行分析,发现TiC的加入提高了抗压强度。通过SEM对样品的表面形貌进行了验证,证实了TiC浓度越高,烧结温度和压实压力越高,材料的强度越高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of process parameter of sintered powder metallurgical TiC reinforced tungsten matrix composites

The W-TiC composites with various concentrations of TiC were produced via powder metallurgy. The high energy ball mill was used for the manufacturing of the samples. In this paper, we have selected (Taguchi Analysis) the optimizing parameters such as sintering temperature, and compaction pressure as inputs and corresponding outputs are compressive strength and microstructure. The compressive strength was analyzed by changing the three variances which found that, the compressive strength improved with the addition of TiC. The surface morphology of the sample was verified with SEM examination which confirms the improvement in the strength of material having higher concentration of TiC with higher sintering temperature and compaction pressure.

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来源期刊
Metal Powder Report
Metal Powder Report Engineering-Automotive Engineering
自引率
0.00%
发文量
25
期刊介绍: Metal Powder Report covers the powder metallurgy industry worldwide. Each issue carries news and features on technical trends in the manufacture, research and use of metal powders. Metal Powder Report is recognised by parts manufacturers and end-users worldwide for authoritative and high quality reporting and analysis of the international powder metallurgy industry. Included in your Metal Powder Report subscription will be the PM World Directory. This extensive directory will provide you with a valuable comprehensive guide to suppliers of materials, equipment and services to the PM industry.
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