Shayan Ray - Academia.edu (original) (raw)

Uploads

Papers by Shayan Ray

Research paper thumbnail of A study on the effective parameters of nanocrystalline Fe 3Mo 3C powder formation, synthesized by mechanical alloying process

Journal of Alloys and Compounds, 2009

a b s t r a c t A nanocrystalline Fe 3 Mo 3 C powder was synthesized through mechanical alloying ... more a b s t r a c t A nanocrystalline Fe 3 Mo 3 C powder was synthesized through mechanical alloying process. The starting materials with the molar ratio of 3Fe:3Mo:1C were milled in a planetary ball mill. In order to investigate the effect of ball to powder weight ratio on the morphology and micro-structural behavior of powder during mechanical alloying process, two different ball to powder weight ratios (10:1 and 20:1) were chosen. X-ray diffraction patterns show that increasing ball to powder weight ratio promotes the Fe 3 Mo 3 C formation in lower milling time. The specimen was milled for 50 h with BPR 20:1, and annealed under Argon atmosphere at 1100 • C, monophase Fe 3 Mo 3 C was obtained. The mean crystalline size of the resulted powder was about 61 nm. To study the morphology evolution and effect of ball to powder weight ratio on it, during different stages of mechanical alloying, scanning electron microscope was used. The results of tap density also illustrate the steps of mechanical alloying process.

Research paper thumbnail of A study on the effective parameters of nanocrystalline Fe 3Mo 3C powder formation, synthesized by mechanical alloying process

Journal of Alloys and Compounds, 2009

a b s t r a c t A nanocrystalline Fe 3 Mo 3 C powder was synthesized through mechanical alloying ... more a b s t r a c t A nanocrystalline Fe 3 Mo 3 C powder was synthesized through mechanical alloying process. The starting materials with the molar ratio of 3Fe:3Mo:1C were milled in a planetary ball mill. In order to investigate the effect of ball to powder weight ratio on the morphology and micro-structural behavior of powder during mechanical alloying process, two different ball to powder weight ratios (10:1 and 20:1) were chosen. X-ray diffraction patterns show that increasing ball to powder weight ratio promotes the Fe 3 Mo 3 C formation in lower milling time. The specimen was milled for 50 h with BPR 20:1, and annealed under Argon atmosphere at 1100 • C, monophase Fe 3 Mo 3 C was obtained. The mean crystalline size of the resulted powder was about 61 nm. To study the morphology evolution and effect of ball to powder weight ratio on it, during different stages of mechanical alloying, scanning electron microscope was used. The results of tap density also illustrate the steps of mechanical alloying process.

Log In