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Heatproofing magnesium alloy with stable high-temperature strength

A high-temperature strength, magnesium alloy technology, applied in the field of magnesium alloys, can solve the problems of limited high-temperature performance, large strength drop, increased alloy cost, etc., and achieve the effects of stable high-temperature strength, broad application prospects, and low cost.

Inactive Publication Date: 2014-05-07
HENAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The current commercial heat-resistant rare earth magnesium alloys such as WE54 and the Mg-Gd alloys developed in recent years all contain relatively high rare earth elements Y, Nd, Gd, etc., and the total rare earth content in the alloy exceeds 8%, or even as high as 20%, which greatly increases the cost of the alloy, and its high temperature performance is limited, especially the heat resistance is not stable enough, and the strength drops more at high temperature.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] The heat-resistant magnesium alloy with stable high-temperature strength in this embodiment is composed of the following components by weight percentage: 3% Y, 2% Gd, 1.5% Sm, 0.8% Nd, 0.5% Ca, the balance is Mg and unavoidable Impurities. The total rare earth content is 7.3%.

[0016] The heat-resistant magnesium alloy with stable high-temperature strength is made by melting and casting magnesium and master alloys Mg-Y, Mg-Sm, Mg-Nd, Mg-Gd, and Mg-Ca as raw materials and undergoing solid solution and aging heat treatment.

[0017] The alloy is formulated according to the above components, and the casting process is as follows: using a corundum crucible and an intermediate frequency induction furnace, in CO 2 +SF 6 Melting under the protection of mixed gas, first add Mg, then add master alloy after melting, when the temperature of magnesium liquid rises to 750°C, cast it into a steel mold to obtain as-cast magnesium alloy, and then conduct heat treatment. The heat tr...

Embodiment 2

[0021] The heat-resistant magnesium alloy with stable high-temperature strength in this embodiment is composed of the following components by weight percentage: 4% Y, 1.5% Gd, 0.8% Sm, 0.5% Nd, 0.8% Ca, the balance being Mg and unavoidable Impurities. The total rare earth content is 6.8%.

[0022] The heat-resistant magnesium alloy with stable high-temperature strength is made by melting and casting magnesium and master alloys Mg-Y, Mg-Sm, Mg-Nd, Mg-Gd, and Mg-Ca as raw materials and undergoing solid solution and aging heat treatment.

[0023] The alloy is formulated according to the above components, and the casting process is as follows: using a corundum crucible and an intermediate frequency induction furnace, in CO 2 +SF 6 Melting under the protection of mixed gas, first add Mg, then add master alloy after melting, when the temperature of magnesium liquid rises to 750°C, cast it into a steel mold to obtain as-cast magnesium alloy, and then conduct heat treatment. The he...

Embodiment 3

[0027] The heat-resistant magnesium alloy with stable high-temperature strength in this embodiment is composed of the following components by weight percentage: 5% Y, 1% Gd, 0.5% Sm, 1.5% Nd, 1% Ca, the balance is Mg and unavoidable Impurities. The total rare earth content is 8%.

[0028] The heat-resistant magnesium alloy with stable high-temperature strength is made by melting and casting magnesium and master alloys Mg-Y, Mg-Sm, Mg-Nd, Mg-Gd, and Mg-Ca as raw materials and undergoing solid solution and aging heat treatment.

[0029] The alloy is formulated according to the above components, and the casting process is as follows: using a corundum crucible and an intermediate frequency induction furnace, in CO 2 +SF 6 Melting under the protection of mixed gas, first add Mg, then add master alloy after melting, when the temperature of magnesium liquid rises to 750°C, cast it into a steel mold to obtain as-cast magnesium alloy, and then conduct heat treatment. The heat treatmen...

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Abstract

The invention discloses a heatproofing magnesium alloy with stable high-temperature strength. The heatproofing magnesium alloy comprises the following components by weight percent: 3%-5% of Y, 1%-2% of Gd, 0.5%-1.5% of Sm, 0.5%-1.5% of Nd, 0.5%-1% of Ca, and the balance of Mg and inevitable impurities. The heatproofing magnesium alloy has a prominent characteristic in heat-resistant quality, namely very stable high-temperature tensile strength, at 200 DEG C-300 DEG C, the tensile strength of the magnesium alloy reduces along with temperature rising in small amplitude about 10%, at room temperature, the tensile strength can reach 246MPa, at 300 DEG C, the tensile strength still can reach above 200MPa; compared with commercial heatproofing magnesium alloy WE54, the heatproofing magnesium alloy has lower cost and more stable high-temperature strength, and has wide application prospect in fields such as aerospace, automobile industry, weapons and the like.

Description

technical field [0001] The invention belongs to the technical field of magnesium alloys, in particular to a heat-resistant magnesium alloy with stable high-temperature strength. Background technique [0002] Magnesium and magnesium alloys are the lightest metal structural materials in engineering applications. They have significant advantages in many fields, especially in aviation, aerospace and automobiles, motorcycles, and high-speed light rail trains. However, The poor heat resistance and creep resistance of magnesium alloys seriously hinders its application in aerospace, military, automobile and other industries. Therefore, the high temperature strength and heat resistance of magnesium alloys are improved to improve their use under high temperature conditions. The reliability of magnesium alloy materials and the expansion of its application range in high temperature environment are important issues in the development of magnesium alloy materials. [0003] The existing h...

Claims

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Application Information

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IPC IPC(8): C22C23/06C22C1/03C22F1/06
Inventor 陈君李全安陈晓亚张清付三玲李梅菊陈雷雷刘文闯
Owner HENAN UNIV OF SCI & TECH
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