2011
DOI: 10.2320/matertrans.m2011037
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A Novel Process for Producing Ferromolybdenum Powder Master Alloy without Generating Secondary Pollutants through a Two-Step Hydrogen Reduction Process

Abstract: A new process for producing ferromolybdenum powder master alloy without generating secondary pollutants by a two-step hydrogen reduction process involving MoO 3 and mill scale has been developed. In this process, mill scale which is an iron byproduct generated from the steel rolling process is used as an iron source. Experimentally, ferromolybdenum powder master alloy was produced by a two-step hydrogen reduction process: The first hydrogen reduction stage was carried at a horizontal furnace for 60 min at 848 … Show more

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Cited by 5 publications
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“…This approach produces ferro-molybdenum particles in the typical size range of microns to millimeters. However, the aluminothermic reaction generates large amounts of slag and dust, inevitably causing environmental issues [10]. By contrast, the gas-solid reduction route offers advantages in the versatility of reduction gases (CH 4 , CO, H 2 ), relatively low processing temperatures, and production of powders with particle size in the micro and nano regime [11].…”
Section: Introductionmentioning
confidence: 99%
“…This approach produces ferro-molybdenum particles in the typical size range of microns to millimeters. However, the aluminothermic reaction generates large amounts of slag and dust, inevitably causing environmental issues [10]. By contrast, the gas-solid reduction route offers advantages in the versatility of reduction gases (CH 4 , CO, H 2 ), relatively low processing temperatures, and production of powders with particle size in the micro and nano regime [11].…”
Section: Introductionmentioning
confidence: 99%