Gasoline engine piston material and preparation method thereof

A gasoline engine and piston technology, applied in the field of gasoline engine piston materials and their preparation, can solve the problems that the performance cannot meet the high strength requirements of a supercharged direct injection piston, the ability to withstand high temperature loads cannot meet the requirements, and the high temperature resistance strength of the piston is poor. Achieve good machinability and mechanical properties, low cost, improve high temperature strength and high temperature thermal stability

Inactive Publication Date: 2014-12-24
福州钜全汽车配件有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

With the improvement of engine power and emission standards, the ability of these materials to withstand high temperature loads is less and less able to meet the requirements
[0003] Chinese patent CN103060625A discloses a high-copper and high-nickel liquid die forging aluminum alloy piston material, in which Cu: 3.5-4.5%, Si: 13.5-14.5%, Mg: 0.05-0.25%, Fe: 0.4-1.05%, Ni: 1.5% -2.5%,Ti: 0.05-0.15%,Mn: 0.1-0.35%,Cr: 0.01-0.15%,Zn: 0.05-1%,Sn: 0.01-0.1%,Pb: 0.01-0.2%,Bi: 0.01- 0.08%, it is used in the snowplow engine, although its performance can be made thin and can meet the requirements of high strength, but due to the liquid die forging process, the piston structure is required to be simple, and the inner cavity of the piston must not have limited demoulding Structure, the inner mold of the mold corresponding to the inner cavity of the piston can only be made with a whole inner core straight off, other

Method used

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preparation example Construction

[0050] A preparation method of a gasoline engine piston material, comprising the following steps:

[0051] 1) Add aluminum ingots according to the weight percentage in the melting furnace, heat to 580-600 ° C, the aluminum ingots are melted, add L-type low-temperature slag remover with 0.2-0.3% of the weight of the aluminum ingots, stir to remove surface impurities, and remove the impurities except AL Add Si, Fe, Cu, Mn, Mg, Ni, Zn, Ti, Pb into the melting furnace according to their respective weight percentages, continue heating until the above metals are completely melted, and then add H-type slag removal with 0.2-0.3% of the weight of the aluminum ingot agent;

[0052] 2) Transfer the molten aluminum into the holding furnace and keep it warm at 740-770 ℃, add phosphorus compound modifier with 0.2-0.3% of the weight of the aluminum ingot for refinement and modification;

[0053] 3) Add 0.1-0.2% high-temperature slag remover by weight of aluminum ingot to the melted molten a...

Embodiment 1

[0059] 1) Add 79.65kg aluminum ingot to the smelting furnace, heat to 580-600°C, melt the aluminum ingot, add L-type low-temperature slag remover with 0.2% of the weight of the aluminum ingot, stir to remove surface impurities, and remove 12.5kg of Si except AL , Fe 0.2kg, Cu 5.3kg, Mn 0.1kg, Mg 1.0kg, Ni 1.0kg, Zn 0.1kg, Ti 0.1kg, Pb 0.05kg into the melting furnace, continue to heat until the above metals are completely melted, and then add aluminum ingots 0.2% by weight of H-type slag remover;

[0060] 2) Transfer the above-mentioned molten aluminum liquid into the holding furnace and keep it warm at 740-770°C, and add a phosphorus compound modifier of 0.2% by weight of the aluminum ingot for refinement and modification;

[0061] 3) Add 0.2% high-temperature slag remover by weight of the aluminum ingot to the melted molten aluminum after the refinement and deterioration treatment above for slag removal treatment, stir the liquid surface for degassing for 13-16 minutes, and t...

Embodiment 2

[0068] 1) Add 79.45kg of aluminum ingot to the melting furnace, heat to 580-600°C, melt the aluminum ingot, add L-type low-temperature slag remover with 0.3% of the weight of the aluminum ingot, stir to remove surface impurities, put 12kg of Si except AL, Add Fe 0.3kg, Cu 5.8kg, Mn 0.2kg, Mg 1.3kg, Ni 0.8kg, Zn 0.05kg, Ti 0.05kg, Pb 0.05kg into the melting furnace, continue to heat until the above metals are completely melted, and then add the weight of aluminum ingots 0.3% H-type slag remover;

[0069] 2) Transfer the above-mentioned molten aluminum liquid into the holding furnace and keep it warm at 740-770°C, and add a phosphorus compound modifier of 0.3% by weight of the aluminum ingot for refinement and modification;

[0070] 3) Add a high-temperature slag remover of 0.1% by weight of the aluminum ingot to the molten aluminum after the refinement and deterioration treatment above for slag removal treatment, stir the liquid surface and perform degassing for 13-16 minutes, ...

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PUM

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Abstract

The invention relates to a gasoline engine piston material and a preparation method thereof. The synthetic material comprises the following chemical constituents: Si, Fe, Cu, Mn, Mg, Ni, Zn, Ti, Pb and Al. The preparation method comprises the following steps: firstly, feeding an aluminum ingot into a smelting furnace, so as to heat and melt the aluminum ingot, feeding and stirring low-temperature a dregs remover, so as to adsorb impurities, continuously feeding other chemical constituents, heating until all the chemical constituents are completely molten, secondly, feeding a phosphate compound modifier to perform refining modification treatment, thirdly, feeding a high-temperature dregs remover, stirring the liquid level, then degassing and leaving to stand, fourthly, casting through a metal mold, and fifthly, performing T6 heat treatment on qualified piston blanks. According to the method, the constituents of aluminum alloy pistons is improved in terms of formula, the high-temperature strength, heat stability and strength of the aluminum alloy pistons are improved, meanwhile, the preparation method is improved, the mechanical property of the aluminum alloy pistons is improved, so that the aluminum alloy pistons can meet the requirements for recast supercharged direct injection pistons in the gasoline engine, and the production cost is reduced.

Description

technical field [0001] The invention relates to the technical field of metal alloys and their preparation, in particular to a gasoline engine piston material and a preparation method thereof. Background technique [0002] The piston is called the heart of the engine. It is one of the most important parts in the engine. Its function is to withstand the gas pressure and transmit it to the connecting rod through the piston pin to drive the crankshaft to rotate. When the engine is working, the piston is directly in contact with the high-temperature gas with an instantaneous temperature of 2200°C, and its top temperature is above 300°C, and it is also subjected to a large gas pressure. Generally, the gasoline engine reaches 5-7Mpa, and the supercharged direct-injection gasoline engine is as high as 8~ 10 Mpa, the diesel engine is as high as 15-22MPa, or even higher, so the piston structure and materials used should meet the following requirements: ①High thermal strength; ②Good th...

Claims

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Application Information

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IPC IPC(8): C22C21/04C22C1/02C22F1/043
Inventor 陈秀玉
Owner 福州钜全汽车配件有限公司
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