Wire metal direct melting 3D printing forming device and process

A 3D printing and forming device technology, applied in the direction of additive processing, etc., can solve the problems of restricting the popularization of metal 3D printing technology in the expansion of industrial application scenarios, high raw material costs, and high equipment costs, so as to improve equipment costs and raw material costs. The effect of oxidation rate and improvement of molding accuracy

Pending Publication Date: 2018-12-11
BEIJING UNIV OF CHEM TECH
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Problems solved by technology

At present, although the metal 3D printing technology led by selective laser sintering technology has gradually begun to be practically applied in the industry, there are still high costs for equipment (high-power laser emitters

Method used

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  • Wire metal direct melting 3D printing forming device and process

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[0014] The invention provides a filament metal direct melting 3D printing and forming device, which is composed of a power supply current control unit, a wire material extrusion unit, a three-dimensional forming unit and a gas storage unit. The power supply current control unit includes a DC power supply 3 and an alligator clip 6; the wire extrusion unit includes a coaxial nozzle 4, a wire feeding tube 5, a gear 7 and a wire feeding motor 8; the three-dimensional forming unit includes a graphite forming platform 2, a magnetic base plate 1 and the screw drive module 15. The gas storage unit includes a high-pressure gas cylinder 13 , a silicon carbide powder storage tank 14 , a barometer 11 , a valve 12 and a gas conduit 10 .

[0015] The structure of the filament metal direct melting 3D printing and forming device of the present invention is composed of: the outlet of the high-pressure gas cylinder 13 is connected to the valve 12 and the gas conduit 10, and the inert gas in the...

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Abstract

The invention provides a wire metal direct melting 3D printing forming process and device. According to the specific implementation method, one pole of a DC power supply is connected with a metal wire, and the other pole of the DC power supply is connected with a graphite platform. A wire feed pipe and a gas guide pipe are connected with an inner layer and an outer layer of a coaxial spray head correspondingly. When the metal wire in the inner-layer pipe keeps close to the graphite platform, an electric arc for melting metal is formed between the metal wire and the graphite platform. As graphite and liquid metal low-carbon iron have good mutual infiltration effect, the graphite platform is located in a short-circuit current loop, under the function of current, electrified metal liquid drops and a magnetic bottom plate below the graphite platform have the attraction effect on metal, and under the combined action of the three parts, the metal makes good contact with the platform. Siliconcarbide powder can be mixed into gas through protective gas, adheres to the surface of a metal pool and is instantly subjected to sintering to form a silicon carbide ceramic wear-resistant layer. A lead screw drives the coaxial spray head and the graphite platform to move as required. The metal liquid drops continuously drip and are accumulated layer by layer to form a high-performance metal 3D printed product.

Description

technical field [0001] The invention relates to the field of 3D printing rapid prototyping, in particular to a filamentary metal direct melting 3D printing technology and a forming device. Background technique [0002] 3D printing technology is an additive manufacturing technology. Compared with the traditional subtractive manufacturing technology of turning, milling, planing and grinding, it can save raw materials and save model processing time. At present, although the metal 3D printing technology led by selective laser sintering technology has gradually begun to be practically applied in the industry, there are still high equipment (high-power laser transmitters) costs, high raw material (metal powder) costs, and low production efficiency. There are many problems, which seriously limit the popularization of metal 3D printing technology and the expansion of practical industrial application scenarios. SUMMARY OF THE INVENTION [0003] Aiming at the deficiencies of the ex...

Claims

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Application Information

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IPC IPC(8): B22F3/115B33Y30/00B33Y10/00
CPCB22F3/115B22F3/003B33Y10/00B33Y30/00
Inventor 石美浓马昊鹏孙戴鑫焦志伟丁玉梅杨卫民
Owner BEIJING UNIV OF CHEM TECH
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