Al and Zn strengthened Mg-Sn-RE-based high-toughness heat-resistant magnesium alloy

A mg-sn-re and mg-sn-sr technology is applied in the field of modification of room temperature performance and high temperature performance, which can solve the problem of deteriorating alloy room temperature mechanical properties, high economic cost of heat-resistant magnesium alloys, and unsatisfactory room temperature performance, etc. Problems, to achieve obvious grain refinement, improve casting process performance, and good development potential

Inactive Publication Date: 2011-11-16
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, according to patents CN 101476072A (a heat-resistant deformation magnesium alloy containing Ca and Sr), CN 1614064A (a high-strength creep-resistant magnesium alloy containing Ca and Si) and R. Ninomiya published in Acta metal. According to the report of Improved heat resistance of Mg-Al alloys by the Ca addition on Mater (Ca improves the creep performance of Mg-Al magnesium alloys), Mg-Al-Ca alloys are easy to form larger Mg 2 Phases of Ca and Al 2 The Ca phase deteriorates the mechanical properties of the alloy at room temperature, and the high Ca content makes it difficult to cast the alloy; there are coarse man-shaped Mg in the Mg-Al-Si alloy structure 2...

Method used

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  • Al and Zn strengthened Mg-Sn-RE-based high-toughness heat-resistant magnesium alloy
  • Al and Zn strengthened Mg-Sn-RE-based high-toughness heat-resistant magnesium alloy
  • Al and Zn strengthened Mg-Sn-RE-based high-toughness heat-resistant magnesium alloy

Examples

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Effect test

Embodiment 1-1

[0031] Example 1-1: A Mg-Sn-Ce-based high-strength and tough heat-resistant magnesium alloy strengthened by adding Al, the mass percentage of each component in the alloy is: 5% Sn, 2% Ce, 2% Al, and the balance is Mg and unavoidable impurities. The tensile strength of the alloy at room temperature as cast is 210MPa; the elongation is 14.4%, and the steady-state creep rate at 175°C and 55MPa is 3.9 x10 -7 / % s.

Embodiment 1-2

[0032] Example 1-2: A Mg-Sn-Ce-based high-strength and tough heat-resistant magnesium alloy strengthened by adding Al, the mass percentage of each component in the alloy is: 5% Sn, 2% Ce, 4% Al, and the balance is Mg and unavoidable impurities. The as-cast room temperature tensile strength of the alloy is 244MPa, and the elongation is 12.0%; the steady-state creep rate at 175°C and 55MPa is 1.6 x10 -7 / % s.

[0033] Example class two: a Zn-added reinforced Mg-Sn-RE based high-strength and tough heat-resistant magnesium alloy.

Embodiment 2-1

[0034] Example 2-1: A Mg-Sn-Ce-based high-strength and toughness heat-resistant magnesium alloy strengthened by adding Zn, the mass percentage of each component in the alloy is: 5% Sn, 2% Ce, 2% Zn, and the balance is Mg and unavoidable impurities. The tensile strength of the alloy at room temperature as cast is 220MPa, and the elongation is 15.0%; the steady-state creep rate at 175°C and 55MPa is 5.0 x10 -7 / % s.

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Abstract

The invention provides a cheap-light-rare-earth-containing Mg-Sn-RE-based high-toughness heat-resistant magnesium alloy. The chemical formula of the alloy is Mg-xSn-yRE-zM, wherein x is more than or equal to 2 weight percent and less than or equal to 8 weight percent, y is more than or equal to 0.5weight percent and less than or equal to 3 weight percent, z is more than or equal to 1 weight percent and less than or equal to 6 weight percent, RE represents La and Ce, M is one or two elements of Al and Zn, and the balance is Mg, a small amount of other elements and unavoidable impurities. The Al and the Zn have an obvious strengthening effect on the Mg-Sn-RE-based alloy, the alloy has the tensile strength of 270MPa and the elongation of about 15 percent in an as-cast state, and the steady-state creep rate of the alloy at the temperature of 175 DEG C under the pressure of 55MPa can be reduced to about 1.0*10<-7>/percent.s, which is far lower than that of an alloy junction (AJ) series heat-resistant magnesium alloy AJ52x; meanwhile, compared with the conventional rare-earth-containing heat-resistant magnesium alloy, the magnesium alloy has higher economy.

Description

technical field [0001] The invention belongs to the class of light metal magnesium alloy materials, and relates to the modification of the room-temperature performance and high-temperature performance of the magnesium alloy. Background technique [0002] Magnesium alloy, as the lightest metal structure material, will have a good application prospect in today's society where the task of energy saving and emission reduction is particularly heavy, because in aerospace, military industry, automobile and many other industries, weight reduction can reduce energy consumption. At the same time, magnesium alloy is known as the "green structural material" in the 21st century because of its light specific gravity, high specific strength and specific stiffness, strong damping, vibration and noise reduction capabilities, excellent liquid forming performance, and easy recycling. Although magnesium alloys have many advantages, there are also some disadvantages that limit their application...

Claims

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Application Information

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IPC IPC(8): C22C23/00
Inventor 陈云贵李世成肖素芬唐永柏丁武城
Owner SICHUAN UNIV
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