Influence of Milling Media on the Mechanical Alloyed W-0.5?wt. % Ti Powder Alloy

Hadi Jahangiri; Sultan S?nmez; M. Lütfi ?ve?o?lu

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Influence of Milling Media on the Mechanical Alloyed W-0.5?wt. % Ti Powder Alloy

机译：研磨介质对机械合金化W-0.5？wt的影响。％钛粉末合金

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The effects of milling atmosphere and mechanical alloying (MA) duration on the effective lattice parameter, crystallite size, lattice strain, and amorphization rate of the W-0.5?wt. % Ti powders were investigated. W-0.5?wt. % Ti powders were mechanically alloyed (MA’d) for 10?h and 20?h in a high energy ball mill. Moreover, morphology of the powders for various MA was analyzed using SEM microscopy. Their powder density was also measured by helium pycnometer. The dry milled agglomerated powders have spherical particle, while wet milled powders have layered morphology. Milling media and increasing of milling time significantly reduce the crystallite size. The smallest crystallite size is 4.93?nm which belonged to the dry milled powders measured by Lorentzian method after 20 hours’ MA. However, after 20 hours, MA’d powders show the biggest crystallite size, as big as 57.07?nm, measured with the same method in ethanol.

机译：铣削气氛和机械合金化（MA）持续时间对W-0.5？wt的有效晶格参数，微晶尺寸，晶格应变和非晶化速率的影响。研究了％钛粉末。 W-0.5？wt。％Ti粉末在高能球磨机中机械合金化（MA’d）10？h和20？h。此外，使用SEM显微镜分析了用于各种MA的粉末的形态。它们的粉末密度也通过氦比重瓶测量。干磨的团聚粉末具有球形颗粒，而湿磨的粉末具有分层的形态。研磨介质和增加研磨时间会显着减小微晶尺寸。最小的微晶尺寸为4.93？nm，属于通过洛伦兹法在20小时的MA后测量的干磨粉末。但是，在20小时后，用乙醇在同一方法下测得的MA'd粉末显示出最大的微晶尺寸，高达57.07？nm。

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《Indian Journal of Materials Science》 |2016年第1期|共6页
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Hadi Jahangiri; Sultan S?nmez; M. Lütfi ?ve?o?lu;
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入库时间 2022-08-18 08:36:51

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Influence of Milling Media on the Mechanical Alloyed W-0.5?wt. % Ti Powder Alloy

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