Fabrication of TiH2 Powders from Titanium Tuning Chip by Mechanical Milling

Jin Man Jang; Won Sik Lee; Se Hyun Ko

doi:10.4028/www.scientific.net/MSF.534-536.185

Paper Titles

Characteristics of Nanostructured WO₃-CuO Powder Mixture Produced by Ball Milling
p.169

Effect of Ag on the Thermoelectric Properties of Ag₂Se Alloy Prepared by Mechanical Alloying Process
p.173

Effect of Fe Doping on Thermoelectric Properties of Mechanically Alloyed CoSb₃
p.177

Fabrication of Aluminum/Aluminum Nitride Composites by Reactive Mechanical Alloying
p.181

Fabrication of TiH₂ Powders from Titanium Tuning Chip by Mechanical Milling
p.185

Formation of Fe₃AlC Base Alloy by Mechanical Alloying and Vacuum Hot Pressing
p.189

High Energy Ball Milling of Catalytically Synthesized Carbon Nanotubes
p.193

Mechanical Milling of Lithium with Metal Oxide and its Reactivity with Gases
p.197

Mechanochemical Synthesis of Zinc Ferrite, ZnFe₂O₄
p.201

HomeMaterials Science ForumMaterials Science Forum Vols. 534-536Fabrication of TiH2 Powders from Titanium Tuning...

Fabrication of TiH₂ Powders from Titanium Tuning Chip by Mechanical Milling

Abstract:

In present work, manufacturing technologies of titanium hydride powder were studied for recycling of titanium tuning chip and for this, attrition ball milling was carried out under H2 pressure of 0.5 MPa. Ti chips were completely transformed into TiH2 within several hundred seconds that is very short time comparing to that in the previous report. Dehydrogenation process TiH2 powders is consist of two reactions: one is reaction of TiH2 to TiHx and the other decomposition of TiHx to Ti and H2. The former reaction shows relatively low activation energy ranged from about 100 KJ/mol to 250 KJ/mol and it is suggested that the reaction is caused by introduction of defects due to milling. In case of TiH2 powders that hardly contains defects, decomposition of TiH2 to Ti and H2 occurs directly without the reaction of TiH2 to TiHx and activation energy is very large as much as 929 KJ/mol.