Ralph W. Bruce scite author profile

The emerging reduction technologies for titanium from ore produce powder instead of sponge. Conventional methods for sintering and melting of titanium powder are costly, as they are energy intensive and require high vacuum, 10-6 Torr or better, since titanium acts as a getter for oxygen at high temperature, adversely affecting mechanical properties. Other melting processes such as plasma arcs have the additional problem of electrode consumption, and direct induction heating of the titanium powder is problematic. Microwave sintering or melting in an atmospheric pressure argon gas environment is potentially cost effective and energy efficient due to the possibility of direct microwave heating of the titanium powder augmented by hybrid heating in a ceramic casket. We are investigating this approach at the Naval Research Laboratory using an S–Band microwave system. The experimental setup and the results of melting and sintering experiments will be described including a rough estimate of energy usage.

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Phase formation and decrystallization effects on BaCO3 + 4 Fe3O4 mixtures; a comparison of 83GHz, multimode millimeter-wave and 2.45GHz single mode microwave H-field processing

Peelamedu

Roy

Hurtt

et al. 2004

Materials Chemistry and Physics

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Ralph W. Bruce

Effects of Proton-Induced Displacement Damage on Gallium Nitride HEMTs in RF Power Amplifier Applications

Application of microwave heating to ceramic processing: Design and initial operation of a 2.45-GHz single-mode furnace

Conventional and high frequency microwave processing of nanophase ceramic materials

Microwave Sintering and Melting of Titanium Powder for Low-Cost Processing

Phase formation and decrystallization effects on BaCO3 + 4 Fe3O4 mixtures; a comparison of 83GHz, multimode millimeter-wave and 2.45GHz single mode microwave H-field processing

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