A recycling device for titanium-based alloy waste based on powder metallurgy

Abstract

The invention discloses a titanium-base alloy waste recycling device based on powder metallurgy. The titanium-base alloy waste recycling device comprises a main machine body, wherein a feeding cavitywith an upward opening is formed in the main machine body, a waste section can be put in the feeding cavity, the right side of the feeding cavity is provided with a working cavity in a communicating mode, a pushing plate is arranged on the bottom wall of the feeding cavity in a sliding mode, a control cavity rubber skin is formed in the left side of the feeding cavity, and a control mechanism capable of controlling the pushing plate to move left and right is arranged in the control cavity rubber skin. According to the titanium-base alloy waste recycling device based on the powder metallurgy, titanium-base alloy waste generated in the technological process link of the powder metallurgy can be subjected to more efficient resource recycling, product particles produced by the device can be reused, so that the problem that too many materials in a powder machine lead to overheat blocking can be solved, waste particles can be subjected to oil stain removal and cleaning, and finally, the wasteparticles can be very sufficiently dried.

Description

technical field [0001] The invention relates to the technical field, in particular to a powder metallurgy-based titanium-based alloy waste recycling device. Background technique [0002] Powder metallurgy technology in the injection molding process often discards and wastes the waste section generated after injection. As a high-end material, titanium-based alloys are expensive. If resources cannot be recycled well, it will cause great waste. The recycling method adopted is to re-grind and use, but there are many problems in the equipment used in this method. During the pulverization, excessive discharge of material will cause the waste to overheat, which will lead to equipment blockage, and the waste after injection often carries a certain amount. If the stains are not removed, it will affect the effect of reuse after recycling. In addition, the process takes a long time, and the waste will become wet when it contacts with the moisture in the air, which will also affect the ...

AI Technical Summary

Problems solved by technology

[0002] Powder metallurgy technology in the injection molding process often discards and wastes the waste section generated after injection. As a high-end material, titanium-based alloys are expensive. If resources cannot be recycled well, it will cause great waste. The recycling method adopted is to re-grind and use, but there are many problems in the equipment used in this method. During the pulverization, excessive discharge of material will cause the waste to overheat, which will lead to equipment blockage, and the waste after injection often carries a certain amount. If the stains are not removed, it will affect the effect of reuse after recycling. In addition, the process takes a long time, and the waste will become wet when it comes into contact with moisture in the air, which will also affect the effect of reuse after recycling.

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