Abstract

We have studied the process of decomposition of ammonium paramolybdate and reduction of the molybdenum oxides in moving beds with rotation of the working chamber. We have shown that agglomerated disperse molybdenum powders are formed under these conditions. Movement of powder beds during reduction ensures continuous contact between the oxides being reduced and the hydrogen, rapid removal of water vapor from the reaction zone, and establishment of nearly kinetic reduction conditions. As a result the metallic molybdenum powders are strong, highly porous agglomerates, similar to the MoO3 particles in size and shape. The powders have high bulk (as-poured) density and good flowability, and their dispersity depends only on the reduction temperature.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Preparation and Properties of Spherical Mo Powders by Plasma Rotating Electrode Process for Additive Manufacturing
Sha Qiu ... Chang Shu Xiang
Materials Science Forum | VOL. 993
Sha Qiu, et. al.Sha Qiu ... Chang Shu Xiang
01 May 2020
Study on regulation mechanism of morphology and particle size of molybdenum powder in hydrogen reduction process
Ruirui Yang ... Jilin He
International Journal of Refractory Metals and Hard Materials | VOL. 111
Ruirui Yang, et. al.Ruirui Yang ... Jilin He
10 Jan 2023
Optimized polybutylene terephthalate powders for selective laser beam melting
Jochen Schmidt ... Wolfgang Peukert
Chemical Engineering Science | VOL. 156
Jochen Schmidt, et. al.Jochen Schmidt ... Wolfgang Peukert
05 Sep 2016
Investigating particle-size-induced changes in composition, physical, rheological, and bioactive properties of black tea powder.
Hongkai Zhu ... Feiyang Chu
Journal of the science of food and agriculture | VOL. 102
Hongkai Zhu, et. al.Hongkai Zhu ... Feiyang Chu
07 Feb 2022
View more papers

More From: Powder Metallurgy and Metal Ceramics

Paper Title
Journal
Date
Author
Effective Plastic Properties of Porous Materials with an Inverse Opal Structure
P O Korobko ... A V Kuzmov
Powder Metallurgy and Metal Ceramics | VOL. -
P O Korobko, et. al.P O Korobko ... A V Kuzmov
06 Jun 2024
DEM Research on Stress and Force Chains during Warm Compaction of Intricate Parts
Yi Yang ... Tao Li
Powder Metallurgy and Metal Ceramics | VOL. -
Yi Yang, et. al.Yi Yang ... Tao Li
04 Jun 2024
Evolution of Pore Structure in Compacts Produced from Nickel Carbonyl Powders during Sintering
P Ya Radchenko ... O I Hetman
Powder Metallurgy and Metal Ceramics | VOL. -
P Ya Radchenko, et. al.P Ya Radchenko ... O I Hetman
04 Jun 2024
Study of Geometric Parameters and Mechanical Properties of Metal-Based Composites
T Kulpinas ... O Sizonenko
Powder Metallurgy and Metal Ceramics | VOL. -
T Kulpinas, et. al.T Kulpinas ... O Sizonenko
03 Jun 2024
View more papers