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Preparation method of titanium alloy three-dimensional lattice sandwich structure

A technology of three-dimensional lattice and sandwich structure, applied in metal processing equipment, manufacturing tools, welding equipment, etc., can solve the problems of high surface roughness, high cost, and easy bending of metal wires on the upper and lower panels, and achieve good interlayer bonding, The effect of high bonding strength and stable performance

Active Publication Date: 2015-04-29
BEIJING AERONAUTICAL MFG TECH RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] (1) The three-dimensional lattice structure of metal wire prepared by the diffusion connection method has a small spacing between layers and a small adjustable range. Generally, it can only have the diameter of a titanium alloy wire, and the designability is poor;
[0007] (2) The metal wires between different layers are connected together by the method of diffusion connection. During the diffusion connection process, the overall structure will be under pressure, resulting in a decrease in the height of the structure, and the required structure height is obtained, which has a certain the difficulty;
[0008] (3) For metal wires with small diameters, the metal wires are easy to bend during diffusion connection and need to be fixed with stainless steel nails;
[0009] (4) When preparing a metal lattice structure with a complex surface, it is necessary to bend the metal wire and perform diffusion connection, which is difficult to control;
[0010] (5) High cost
Electron beam rapid prototyping requires special electron beam and laser equipment to form lattice structures, and the cost is relatively high;
[0011] (6) The part structure after electron beam and laser rapid prototyping is cast structure, and the performance of the material is low;
[0012] (7) The surface roughness of the upper and lower panels after electron beam and laser rapid prototyping is relatively high, and subsequent processing is required;

Method used

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  • Preparation method of titanium alloy three-dimensional lattice sandwich structure
  • Preparation method of titanium alloy three-dimensional lattice sandwich structure
  • Preparation method of titanium alloy three-dimensional lattice sandwich structure

Examples

Experimental program
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Embodiment

[0043] The preparation process scheme of the three-dimensional lattice structure of TC4 titanium alloy is as follows:

[0044] (1) Process the hollowed-out grid structure of the core plate. The TC4 titanium alloy plate is processed into a hollowed-out grid structure by high-pressure water cutting or CNC machining, and the thickness of the core plate is 0.8mm;

[0045] (2) Process the panel. The TC4 titanium alloy plate is processed into a flat plate suitable for the shape and size of the core plate by high-pressure water cutting or numerical control machining. The thickness of the panel is 2.0mm;

[0046] (3) Surface chemical cleaning to remove the oxide layer on the surface of the core board and the panel. The surface cleaning solution used is a mixed solution of nitric acid, hydrofluoric acid and water, and the volume ratio is: 10%:5%:85%;

[0047] (4) Solder stop flux coating, apply solder stop flux on the hollow grids on the two surfaces of the core board, the principle of...

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Abstract

The invention belongs to a titanium alloy structure forming technology, and in particular relates to a preparation method of a titanium alloy three-dimensional lattice sandwich structure. According to the invention, a titanium alloy three-dimensional lattice sandwich member is prepared by adopting a superplastic forming method, and the method of preparing the titanium alloy three-dimensional lattice sandwich structure by adopting a superplastic forming / diffusion connection process is proposed for the first time, therefore on one hand, the shape of a formed part, in particular to the titanium alloy three-dimensional lattice structure with a complex shape, can be accurately controlled, and on the other hand, the technical problem that a titanium alloy three-dimensional lattice sandwich layer is difficult to form is solved. The structure which is prepared by superplastic forming / diffusion connection has higher bonding strength because the three-dimensional lattice sandwich layer and upper and lower panels are bonded together by a diffusion connection method.

Description

technical field [0001] The invention belongs to the titanium alloy structure forming technology, and relates to a preparation method of a titanium alloy three-dimensional lattice interlayer structure. Background technique [0002] The three-dimensional lattice structure of titanium alloy can be prepared by the following method, such as figure 1 As shown, firstly, the titanium wires are interlaced layer by layer at a certain angle, and then under high temperature conditions, a fixed pressure is applied, and the heat preservation and pressure are maintained for a certain period of time, so that the titanium alloy wires between different layers are mutually diffused and connected together, and then Brazing (TiCuNi-60, at 20°C min -1 The speed is raised to 550°C, and the temperature is kept for 5 minutes, and then the temperature is raised to 975°C, and the vacuum degree is 10 -7 Under Torr conditions, heat preservation for 30min), the panel and the lattice structure are conne...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23P15/00B23K20/14B21D13/02
Inventor 李志强赵冰侯红亮廖金华韩秀全王飞
Owner BEIJING AERONAUTICAL MFG TECH RES INST
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