Method for manufacturing additives by combining selective laser melting and laser cutting

Abstract

The invention relates to the technical field of additive manufacturing, in particular to a method for manufacturing additives by combining selective laser melting and laser cutting. The method for manufacturing additives by combining selective laser melting and laser cutting comprises the following steps that (1) the surface of a substrate is cleaned with an alkaline solution to remove oil stains,then an oxide film on the surface of the substrate is polished and removed, and the surface of the substrate is wiped with acetone; (2) firstly, a laser beam in a heating mode is emitted to scan andpreheat a powder bed, so that a powder material is heated to a micro-sintering temperature to generate micro-sintering; (3) then a laser beam in a selective melting mode is emitted to scan and melt the preheated powder bed to form a required workpiece cross-sectional layer; (4) finally a laser beam in a laser cutting mode is emitted to perform one or more times of cutting scan on the inner and outer contours of the workpiece cross-section to remove or cut rough edges and welding powder on the contours so as to obtain accurate and smooth inner and outer contours of the part cross-section; and (5) the heating, selective melting and cutting processes are repeated to finally obtain a required three-dimensional solid workpiece.

Description

technical field [0001] The invention relates to the technical field of additive manufacturing, in particular to an additive manufacturing method combining laser selective melting and laser cutting. Background technique [0002] High-precision flexible manufacturing is the goal pursued by the manufacturing industry. Therefore, the research and industrial development of additive manufacturing (or 3D printing) technology has become a hot spot today. Selective laser melting (SLM) technology is the latest rapid prototyping technology that has emerged in recent years. It uses layered manufacturing for additive manufacturing, and converts CAD models into physical parts through powder. It adopts laser rapid melting of selected metal powder and rapid cooling and solidification technology, which can obtain non-equilibrium supersaturated solid solution and uniform and fine metallographic structure, and has a wide range of forming materials. The manufacturing process is not limited by t...

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Problems solved by technology

[0003] However, similar to other additive manufacturing processes, since selective laser melting is a rapid prototyping process, the surface tension of the molten metal is very high, so it is easy to produce a spheroidization effect, resulting in an increase in internal voids and a decrease in density and strength; metal powder melting Fast, the molten pool exists for a short time, and there is a large temperature gradient during rapid solidification and forming, so that it is easy to generate large thermal stress. The thermal expansion coefficients of different tissues are different, which will generate tissue stress, and there are residual stresses in the so...

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