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High-strength and high-thermal-conductivity aluminum alloy material and heat treatment process thereof

An aluminum alloy material and high thermal conductivity technology, which is applied in the field of aluminum alloy material processing, can solve the problems of unguaranteed size, increased enterprise cost, and low strength, and achieve the effects of eliminating lattice distortion, improving mucous membrane performance, and increasing strength

Inactive Publication Date: 2022-02-01
HUAJIN NEW MATERIALS RES INST GUANGZHOU CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0002] The existing high thermal conductivity aluminum is generally not high in strength. For the commonly used aluminum silicon 6, in order to improve the thermal conductivity, the main elements are aluminum, silicon, iron, strontium, without adding strengthening elements (such as magnesium, copper, etc.), die-casting The post tensile strength is about 175MPa, the yield strength is about 80MPa, the Brinell hardness is about 56, and the thermal conductivity is about 150W / m.k. In order to achieve a thermal conductivity above 175W / m.k, artificial aging at 320 degrees + 3 hours is generally used in the industry. In order to eliminate the influence of die-casting lattice distortion on thermal conductivity, and 320 degrees + 3 hours is an annealing treatment, which further reduces the strength and hardness of castings, and is prone to serious deformation after heat treatment. If machining is performed after heat treatment, the size is even more unacceptable Guaranteed, even the position of the screw must be pre-embedded with brass nuts during die-casting, which increases the cost of the enterprise. From the perspective of aluminum-silicon 8, the content of silicon and magnesium is higher than that of aluminum-silicon 6, and its strength is also higher than that of aluminum-silicon 6. , but the thermal conductivity is lower than that of Al-Si 6, which is difficult to apply in the field of high thermal conductivity. The die-casting industry urgently needs a high thermal conductivity and high strength (compared to high thermal conductivity materials), and its mechanical properties are similar to adc12 (yield strength ≥ 154MPa ) material and heat treatment process

Method used

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  • High-strength and high-thermal-conductivity aluminum alloy material and heat treatment process thereof
  • High-strength and high-thermal-conductivity aluminum alloy material and heat treatment process thereof
  • High-strength and high-thermal-conductivity aluminum alloy material and heat treatment process thereof

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Embodiment 1

[0047] Embodiment 1. A high-strength and high-thermal-conductivity aluminum alloy material, which includes the following components by mass percentage: Si: 4.5%, Mg: 0.3%, Fe: 0.7%, B: 0.01%, Sr: 0.01%, (Mn+Ti+V+Cr): 0.01%, aluminum: 94.47%.

[0048]

[0049] A heat treatment process for a high-strength and high-thermal-conductivity aluminum alloy material, comprising the following steps:

[0050] S1, putting 85% pure aluminum ingots into a heating furnace and heating to 850°C;

[0051] S2. The heating furnace is maintained at 850°C, and crystalline silicon, aluminum-boron master alloy and 75% iron metal powder additives are added;

[0052] S3, after the material in the heating furnace is completely melted, add the remaining 15% pure aluminum ingot to cool down;

[0053] S4, add pure magnesium metal material when the heating furnace cools down to 700°C;

[0054] S5. After all the raw materials in the heating furnace are melted, use a sodium-free refining agent for refini...

Embodiment 2

[0059]Embodiment 2. A high-strength and high-thermal-conductivity aluminum alloy material, which includes the following components by mass percentage: Si: 6.5%, Mg: 0.6%, Fe: 1.0%, B: 0.03%, Sr: 0.04%, (Mn+Ti+V+Cr): 0.02%, aluminum: 91.81%.

[0060]

[0061] A heat treatment process for a high-strength and high-thermal-conductivity aluminum alloy material, comprising the following steps:

[0062] S1, putting 85% pure aluminum ingots into a heating furnace and heating to 850°C;

[0063] S2. The heating furnace is maintained at 850°C, and crystalline silicon, aluminum-boron master alloy and 75% iron metal powder additives are added;

[0064] S3, after the material in the heating furnace is completely melted, add the remaining 15% pure aluminum ingot to cool down;

[0065] S4, add pure magnesium metal material when the heating furnace cools down to 700°C;

[0066] S5. After all the raw materials in the heating furnace are melted, use a sodium-free refining agent for refinin...

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Abstract

The invention discloses a high-strength and high-thermal-conductivity aluminum alloy material and a heat treatment process thereof.The high-strength and high-thermal-conductivity aluminum alloy material comprises , by mass, 4.5%-6.5% of Si, 0.3%-0.6% of Mg, 0.7%-1.0% of Fe, 0%-0.03% of B, 0.01%-0.04% of Sr, 0%-0.02% of (Mn + Ti + V + Cr) and the balance aluminum. The beneficial effect is that by adding silicon and magnesium to aluminum alloy, the strength is obviously improved during heat treatment; by adding boron, the total amount of titanium, vanadium and chromium is effectively reduced; by adding strontium, the silicon phase is changed, the modification effect is achieved, and meanwhile the conductivity is increased; by adding iron, the mucous membrane performance of the high-thermal-conductivity aluminum heat dissipation teeth is improved, and demolding is convenient; and through artificial aging, the strength can be improved, lattice distortion caused by rapid cooling of the die casting can be eliminated, and therefore the heat conductivity is improved.

Description

technical field [0001] The invention relates to the technical field of aluminum alloy material processing, in particular to a high-strength and high-thermal conductivity aluminum alloy material and a heat treatment process thereof. Background technique [0002] The existing high thermal conductivity aluminum is generally not high in strength. For the commonly used aluminum silicon 6, in order to improve the thermal conductivity, the main elements are aluminum, silicon, iron, strontium, without adding strengthening elements (such as magnesium, copper, etc.), die-casting The post tensile strength is about 175MPa, the yield strength is about 80MPa, the Brinell hardness is about 56, and the thermal conductivity is about 150W / m.k. In order to achieve a thermal conductivity above 175W / m.k, artificial aging at 320 degrees + 3 hours is generally used in the industry. In order to eliminate the influence of die-casting lattice distortion on thermal conductivity, and 320 degrees + 3 ho...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C21/04C22C1/03C22F1/043B22D17/00
CPCC22C21/04C22C1/026B22D17/00C22C1/03C22F1/043
Inventor 闫俊范卫忠高伟全陈洪城陈民锭罗远文
Owner HUAJIN NEW MATERIALS RES INST GUANGZHOU CO LTD
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