Cooling process for producing high-magnesium-aluminum alloy welding wire blank through continuous casting and rolling method

A high-magnesium aluminum alloy, continuous casting and rolling technology, used in metal processing equipment, workpiece cooling devices, metal rolling and other directions, can solve the problem of high alloy rod temperature, improve surface quality, ensure work efficiency and stability, The effect of reducing high temperature damage

Active Publication Date: 2018-07-24
XINJIANG JOINWORLD CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The purpose of the present invention is to overcome the defects in the prior art, to design a cooling process for producing high-magnesium-aluminum alloy welding wire blanks by continuous casting and rolling, and to solve the high-magnesium-aluminum alloy welding wire blank (alloy rod) winding process The adverse effect of the high temperature of the medium alloy rod ensures the work efficiency and stability of the subsequent winding operation, and reduces the high temperature damage caused by the high temperature aluminum alloy rod to the equipment. For

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] A cooling process for producing high-magnesium aluminum alloy welding wire billets by continuous casting and rolling, the steps of the process are:

[0033] (1) Raw material selection and weighing: select and weigh aluminum ingots, magnesium ingots and master alloys according to the composition ratio;

[0034] The composition ratio of high magnesium aluminum alloy welding wire blank is: Si: 0.06%, Fe: 0.15%, Cu: 0.05%, Mn: 0.08%, Mg: 5.0%, Cr: 0.12%, Zn: 0.03%, Ti: 0.12%, Na: 0.0005%, its main component is Al.

[0035] The raw material requirements are:

[0036] Al99.70 common aluminum, the quality meets the requirements of GB / T1196-2008 standard;

[0037] Magnesium ingot, the quality meets the requirements of GB / T3499-2011 standard;

[0038] AlTi10 master alloy, the quality meets the requirements of GB / T27677-2011 standard;

[0039] AlMn10 master alloy, the quality meets the requirements of GB / T27677-2011 standard;

[0040] AlCr10 master alloy, the quality meets t...

Embodiment 2

[0045] A preferred embodiment of the present invention is a cooling process for producing high-magnesium aluminum alloy welding wire billets by continuous casting and rolling. The steps of the process are:

[0046] (1) Raw material selection and weighing: select and weigh aluminum ingots, magnesium ingots and master alloys according to the composition ratio;

[0047] The composition ratio of high magnesium aluminum alloy welding wire blank is: Si: 0.08%, Fe: 0.19%, Cu: 0.02%, Mn: 0.12%, Cr: 0.05, Mg: 4.2%, Zn: 0.03%, Ti: 0.08 %, Na: 0.0004%, its main component is Al.

[0048] The raw material requirements are:

[0049] Al99.70 common aluminum, the quality meets the requirements of GB / T1196-2008 standard;

[0050] Magnesium ingot, the quality meets the requirements of GB / T3499-2011 standard;

[0051] AlTi10 master alloy, the quality meets the requirements of GB / T27677-2011 standard;

[0052] AlMn10 master alloy, the quality meets the requirements of GB / T27677-2011 standard;...

Embodiment 3

[0058] A preferred embodiment of the present invention also includes a cooling process for producing high-magnesium aluminum alloy welding wire billets by continuous casting and rolling, and the steps of the process are:

[0059] (1) Raw material selection and weighing: select and weigh aluminum ingots, magnesium ingots and master alloys according to the composition ratio;

[0060] The composition ratio of high magnesium aluminum alloy welding wire blank is: Si: 0.13%, Fe: 0.25%, Cu: 0.16%, Mn: 0.19%, Mg: 5.9%, Cr: 0.18%, Zn: 0.08%, Ti: 0.18%, Na: 0.0004%, its main component is Al.

[0061] The raw material requirements are:

[0062] Al99.70 common aluminum, the quality meets the requirements of GB / T1196-2008 standard;

[0063] Magnesium ingot, the quality meets the requirements of GB / T3499-2011 standard;

[0064] AlTi10 master alloy, the quality meets the requirements of GB / T27677-2011 standard;

[0065] AlMn10 master alloy, the quality meets the requirements of GB / T27677...

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Abstract

The invention relates to a cooling process for producing a high-magnesium-aluminum alloy welding wire blank through a continuous casting and rolling method. The process comprises the following steps:(1) raw material selection and weighing; (2) refining: adding an aluminum ingot in a melting heat-insulation furnace and melting, and then refining; (3) degassing and deslagging: carrying out degassing and deslagging through online refining and filter equipment; and (4) casting and cast-rolling: casting to obtain an ingot, and then conveying the ingot in a twelve-rack two-roll continuous rolling unit and carrying out cast-rolling; and carrying out online cooling on the alloy rod obtained through the cast-rolling through an emulsion. According to the process disclosed by the invention, the adverse influence of high temperature of the alloy rod in a winding process for the high-magnesium-aluminum alloy welding wire blank (alloy rod) is solved, the working efficiency and the stability of thesubsequent winding working are ensured, and the high-temperature damage of the high-temperature aluminum alloy rod to equipment is reduced; and the surface of the aluminum alloy rod can be cleaned toimprove the surface quality while the aluminum alloy rod is cooled to improve the performance stability, so that further improvement for the machining quality is promoted.

Description

technical field [0001] The invention relates to an aluminum alloy production process, in particular to a cooling process for producing a high-magnesium aluminum alloy welding wire billet by adopting continuous casting and rolling. Background technique [0002] Al-Mg alloy is a very important structural material in aluminum alloys. It is widely used in aviation, aerospace, ships and other fields due to its excellent corrosion resistance, welding performance and moderate mechanical properties. With the development of welding technology, aluminum and aluminum alloy welding structures have been widely used in civil and military fields, such as various chemical containers, vehicles, ships, aircraft, rockets, space probes, etc., as well as high-speed trains, subway trains, Urban light rail is an industry supported by the state's key investment support. High-magnesium aluminum alloys, such as 5356 aluminum alloy, have medium strength, good corrosion resistance, processability and ...

Claims

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Application Information

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IPC IPC(8): B21C37/04B21B45/02C22C21/06C22C21/08C22C1/03C22C1/06
CPCB21B45/0233B21C37/04C22C1/026C22C1/03C22C1/06C22C21/06C22C21/08
Inventor 蒋铁军李伟强侯经韬殷智
Owner XINJIANG JOINWORLD CO LTD
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