Abstract: Systems, methods, and compositions disclosed herein provide for low-oxygen metal powders. These metal powders, such as very-fine powders and spherical powders of titanium and titanium alloys, can be effectively deoxidized through use of vapor deoxidation without requiring the powder to undergo re-sizing or re-shaping subsequent to the deoxidation. Systems, methods, and compositions in accordance with the present disclosure can produce low-cost, low-oxygen, metal powders, such as very-fine powders and spherical powders of, for example, titanium and titanium alloys. Moreover, systems, methods, and compositions in accordance with the present disclosure can provide for reducing the number of processes or cost of processes required to produce these low-oxygen metal powders.

Abstract: Systems, methods, and compositions disclosed herein provide for low-oxygen metal powders. These metal powders, such as very-fine powders and spherical powders of titanium and titanium alloys, can be effectively deoxidized through use of vapor deoxidation without requiring the powder to undergo re-sizing or re-shaping subsequent to the deoxidation. Systems, methods, and compositions in accordance with the present disclosure can produce low-cost, low-oxygen, metal powders, such as very-fine powders and spherical powders of, for example, titanium and titanium alloys. Moreover, systems, methods, and compositions in accordance with the present disclosure can provide for reducing the number of processes or cost of processes required to produce these low-oxygen metal powders.

Abstract: Systems, methods, and compositions disclosed herein provide for low-oxygen metal powders. These metal powders, such as very-fine powders and spherical powders of titanium and titanium alloys, can be effectively deoxidized through use of vapor deoxidation without requiring the powder to undergo re-sizing or re-shaping subsequent to the deoxidation. Systems, methods, and compositions in accordance with the present disclosure can produce low-cost, low-oxygen, metal powders, such as very-fine powders and spherical powders of, for example, titanium and titanium alloys. Moreover, systems, methods, and compositions in accordance with the present disclosure can provide for reducing the number of processes or cost of processes required to produce these low-oxygen metal powders.