Energy analysis of mechanical alloying of molybdenum disilicide in a new-type high energy vibrating ball mill

Journal of China University of Mining and Technology Pub Date : 2008-09-01 DOI:10.1016/S1006-1266(08)60093-0

FENG Pei-zhong , WANG Xiao-hong , QIANG Ying-huai , QU Xuan-hui

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引用次数: 7

Abstract

In order to understand the fundamentals of a high energy vibrating type milling process, the energy transfer during mechanical alloying of molybdenum disilicide is investigated based on the Magini-Iasonna energy transfer method, amended by Murty. The efficiency factor and total energy of milling are calculated. MoSi2 synthesized by a mechanically induced self-propagating reaction has also been studied according to different milling parameters, such as the number of balls and the ball to powder weight ratio. The results indicate that the efficiency factor is between 1.944 and 8.507 J/(g·s). A total milling energy of about 19.38-26.47 kJ/g is found to be necessary for the mechanically induced self-propagating reaction of a Mo:2Si powder mixture. The efficiency of milling energy transfer is about 3.3%-4.5%. The experiment and modeling show that the optimum condition for mechanical alloying is a half full vial of balls.

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新型高能振动球磨机机械合金化二硅化钼的能量分析

为了了解高能振动型铣削过程的基本原理，基于Murty修正的Magini-Iasonna能量传递方法，研究了二硅化钼机械合金化过程中的能量传递。计算了铣削效率系数和铣削总能量。对机械诱导自扩散反应合成的MoSi2进行了研究，并根据不同的研磨参数，如球数和球粉重量比进行了研究。结果表明，效率因子在1.944 ~ 8.507 J/(g·s)之间。Mo:2Si粉末混合物的机械诱导自扩散反应所需的总磨矿能量约为19.38 ~ 26.47 kJ/g。铣削能量传递效率约为3.3% ~ 4.5%。实验和模拟表明，机械合金化的最佳条件是半满瓶的球。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of China University of Mining and Technology

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