Oxide dispersion strengthened (ODS) high-entropy alloy and preparation method thereof

A high-entropy alloy and dispersion strengthening technology, which is applied in the field of metal structural materials, can solve the problems of exogenous ODS high-entropy alloys, such as low yield strength and poor plasticity, and achieve wide composition range, wide preparation conditions and high strength. Effect

Active Publication Date: 2017-02-22
UNIV OF SCI & TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, single-phase high-entropy alloys also have obvious shortcomings: high-entropy alloys with FCC solid solution structure have good toughness but low yield strength; while high-entropy alloys with BCC solid solution structure have high strength but poor plasticity
[0005] Most of the current research is to improve the mechanical properties of high-entropy alloys through endogenous precipitation strengthening and solid solution strengthening, but there are not many studies on exogenous ODS high-entropy alloys.

Method used

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  • Oxide dispersion strengthened (ODS) high-entropy alloy and preparation method thereof
  • Oxide dispersion strengthened (ODS) high-entropy alloy and preparation method thereof
  • Oxide dispersion strengthened (ODS) high-entropy alloy and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0049] FeCoNiCr added 0.5wt% (Ti, Y 2 o 3 ) Preparation and Properties of High Entropy Alloys

[0050] (1) Ingredient distribution ratio: The raw materials used in the experiment are matrix element powder (composition is FeCoNiCr) and titanium powder and nano Y 2 o 3 Powder, the purity is higher than 99.9wt%. Among them, the particle size of matrix element powder and titanium powder is 200-325 mesh, Y 2 o 3 The average particle diameter of the powder was 30 nm. Convert the high-entropy alloy components of the equiatomic ratio into mass percentage, and then according to the mass percentage, it is 99.5(FeCoNiCr)-0.33Ti-0.17Y 2 o 3 Weigh and mix separately.

[0051] (2) High-energy ball milling: put the powder together with 300 g of stainless steel balls into a vacuum ball milling tank, and operate in a vacuum glove box in an argon atmosphere. An omnidirectional planetary ball mill was used for ball milling, the ball milling process was carried out under the protection o...

Embodiment 2

[0055] FeCoNiCrAl added 0.5wt% (Ti, Y 2 o 3 ) Preparation and Properties of High Entropy Alloys

[0056] (1) Ingredient distribution ratio: The raw materials used in the experiment are matrix element powder (composition is FeCoNiCrAl) and titanium powder and nano Y 2 o 3 Powder, the purity is higher than 99.9wt%. Among them, the particle size of matrix element powder and titanium powder is 200-325 mesh, Y 2 o 3 The average particle diameter of the powder was 30 nm. Convert the high-entropy alloy components of the equiatomic ratio into mass percentage, and then according to the mass percentage, it is (FeCoNiCrAl)-0.33Ti-0.17Y 2 o 3 Weigh and mix separately.

[0057] (2) High-energy ball milling: put the powder together with 300 g of stainless steel balls into a vacuum ball milling tank, and operate in a vacuum glove box in an argon atmosphere. An omnidirectional planetary ball mill was used for ball milling, the ball milling process was carried out under the protection...

Embodiment 3

[0060] Embodiment 3: FeCoNiCr adds 1wt% (Ti, Y 2 o 3 ) Preparation and Properties of High Entropy Alloys

[0061] (1) Ingredient distribution ratio: The raw materials used in the experiment are matrix element powder (composition is FeCoNiCr) and titanium powder and nano Y 2 o 3 Powder, the purity is higher than 99.9wt%. Among them, the particle size of matrix element powder and titanium powder is 200-325 mesh, Y 2 o 3 The average particle diameter of the powder was 30 nm. Convert the high-entropy alloy components of the equiatomic ratio into mass percentage, and then according to the mass percentage, it is (FeCoNiCr)-0.67Ti-0.33Y 2 o 3 Weigh and mix separately.

[0062] (2) High-energy ball milling: put the powder together with 300 g of stainless steel balls into a vacuum ball milling tank, and operate in a vacuum glove box in an argon atmosphere. An omnidirectional planetary ball mill was used for ball milling, the ball milling process was carried out under the prote...

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Abstract

The invention provides oxide dispersion strengthened (ODS) high-entropy alloy and a preparation method thereof, and belongs to the field of structural metallic materials. Pure metal powder with a certain composition proportion and oxide particles of a certain content are mixed, and then ODS high-entropy alloy powder is prepared through a mechanical alloying method; and then the final ODS high-entropy alloy is obtained through a spark plasma sintering (SPS) method. The prepared ODS high-entropy alloy is mainly composed of a solid solution phase (95% or above) and a small amount of evenly-dispersed nanometer oxide particles, and has the excellent comprehensive mechanical property and good thermal stability; and the compressive strength of the FeCoNiCrAl-based ODS high-entropy alloy composed of the face-centered cubic structure (FCC) solid solution and the body-centered cubic structure (BCC) solid solution is higher than 3500 MPa, and compressive strain of the high-entropy alloy can reach 10%. The high-entropy alloy has high strength, high hardness, high corrosion resistance, high abrasion resistance, and excellent thermal stability and irradiation resistance, and has potential application prospects in the fields of aerospace, metallurgy, the chemical industry, electrical energy and the like.

Description

technical field [0001] The invention belongs to the field of metal structural materials and provides an oxide dispersion strengthened (ODS) high-entropy alloy and a preparation method thereof. Background technique [0002] Oxide dispersion strengthened (ODS) alloys generally use powder metallurgy technology to uniformly add fine oxides with thermal and chemical stability into the alloy matrix. These oxide particles can be used as dispersion strengthening particles to pin dislocations and grain boundaries at high temperatures where solid solution strengthening and precipitation strengthening fail, hindering dislocation movement and recrystallization, thereby effectively improving the high temperature mechanical properties and resistance of materials. Irradiation performance. The commonly used oxide is Y 2 o 3 、Al 2 o 3 , ThO 2 Wait. At present, the research on the microstructure, properties and processing technology of ODS alloys has become one of the research hotspots...

Claims

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Application Information

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IPC IPC(8): C22C30/00C22C1/05
CPCC22C1/05C22C30/00
Inventor 刘雄军贾蓓吕宗阳王辉吴渊吕昭平
Owner UNIV OF SCI & TECH BEIJING
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