Treatment method for improving strength of 20CrMnMo steel

A processing method and strength technology, applied in the field of processing to improve the strength of 20CrMnMo steel, can solve the problems such as the inability to significantly reduce the amount of retained austenite, the decline of physical properties, thermal properties and magnetic properties, and the impact on the dimensional stability of the workpiece, so as to improve the service life. , the same organizational transformation time, the effect of easy operation

Inactive Publication Date: 2017-10-27
SOUTHWEST UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] 20CrMnMo steel is widely used, and the requirements for its mechanical properties are getting higher and higher. The existing treatment method of 20CrMnMo steel is quenching after carburizing, and then tempering at low temperature, so that the steel parts show higher strength, hardness and wear resistance. After quenching, the steel parts will retain a certain amount of retained austenite, which is an unstable phase and will transform into martensite in the subsequent processing or service process, affecting the dimensional stability of the workpiece. The instability of austenite is prone to volume changes caused by structural transformation, resulting in metal fragmentation. Moreover, there are many physical properties, especially thermal properties and magnetic properties.
However, the current heat treatment processes have certain limitations. Process 1 only reduces the residual austenite through cold treatment.
Process 2 performs a low-temperature tempering after quenching to reduce the residual stress of the material, and then performs cryogenic treatment to achieve the above purpose. However, for 20CrMnMo steel, the low-temperature tempering after quenching produces relatively stable retained austenite , the subsequent cryogenic treatment cannot significantly reduce the amount of retained austenite, and the corresponding increase in hardness is also very small, so the effect of cryogenic treatment is not obvious

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] Embodiment 1, a kind of treatment method that improves 20CrMnMo steel intensity, it comprises the steps:

[0023] Step 1, put the 20CrMnMo steel workpieces that have been carburized and quenched and cooled to room temperature into a temperature-controllable low-temperature device, and a certain gap is provided between the 20CrMnMo steel workpieces;

[0024] Step 2, turn on the refrigeration system of the cryogenic equipment, pre-cool at -40°C and keep warm for 15 minutes;

[0025] Step 3, cooling the pre-cooled 20CrMnMo steel workpiece to -100°C at a rate of 10°C / min, and holding time for 10h;

[0026] Step 4, turn off the refrigeration system of the low-temperature equipment, so that the 20CrMnMo steel workpiece is naturally heated up, and when the temperature rises above -45°C, take out the 20CrMnMo steel workpiece;

[0027] In step five, the 20CrMnMo steel workpiece taken out in step four is raised to room temperature, and then the 20CrMnMo steel workpiece is heated...

Embodiment 2

[0029] Embodiment 2, a kind of processing method that improves 20CrMnMo steel intensity, it comprises the steps:

[0030] Step 1, put the 20CrMnMo steel workpieces that have been carburized and quenched and cooled to room temperature into a temperature-controllable low-temperature device, and a certain gap is provided between the 20CrMnMo steel workpieces;

[0031] Step 2, turn on the refrigeration system of the cryogenic equipment, pre-cool at -35°C and keep it warm for 30 minutes;

[0032] Step 3, cooling the pre-cooled 20CrMnMo steel workpiece to -100°C at a rate of 5°C / min, and holding time for 10h;

[0033] Step 4, turn off the refrigeration system of the low-temperature equipment, so that the 20CrMnMo steel workpiece is naturally heated up, and when the temperature rises above -45°C, take out the 20CrMnMo steel workpiece;

[0034] In step five, the 20CrMnMo steel workpiece taken out in step four is raised to room temperature, and then the 20CrMnMo steel workpiece is hea...

Embodiment 3

[0036] Embodiment 3, a kind of treatment method that improves 20CrMnMo steel intensity, it comprises the steps:

[0037] Step 1, put the 20CrMnMo steel workpieces that have been carburized and quenched and cooled to room temperature into a temperature-controllable low-temperature device, and a certain gap is provided between the 20CrMnMo steel workpieces;

[0038] Step 2, turn on the refrigeration system of the cryogenic equipment, pre-cool at -45°C and keep warm for 2 minutes;

[0039] Step 3, cooling the pre-cooled 20CrMnMo steel workpiece to -230°C at a rate of 20°C / min, and holding time for 6h;

[0040] Step 4, turn off the refrigeration system of the low-temperature equipment, so that the 20CrMnMo steel workpiece is naturally heated up, and when the temperature rises above -45°C, take out the 20CrMnMo steel workpiece;

[0041] In step five, the 20CrMnMo steel workpiece taken out in step four is raised to room temperature, and then the 20CrMnMo steel workpiece is heated t...

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Abstract

The invention discloses a treatment method for improving strength of 20CrMnMo steel. The treatment method comprises the following steps: 1, putting 20CrMnMo steel workpieces which are subjected to carburizing and quenching and are cooled to the room temperature into low-temperature equipment, wherein certain gaps are formed among the steel workpieces; 2, powering on the refrigeration system of the low-temperature equipment, precooling at minus 40+ / -5 DEG C, keeping the temperature, and setting the temperature keeping time according to sizes of the steel workpieces; 3, cooling the steel workpieces to minus 230 DEG C to minus 100 DEG C at a velocity of 5-20 DEG C / minute, and keeping the temperature for 6-48 hours; 4, powering off the refrigeration system of the low-temperature equipment, naturally increasing the temperature of the steel workpieces, and taking out the steel workpieces when the temperature is increased to minus 45 DEG C or greater, and cooling to the room temperature. The treatment method is simple and convenient to operate, low in cost and free of waste emission or environment pollution, the strength, the hardness and the wearing resistance of the 20CrMnMo steel can be effectively improved, and the service life of the 20CrMnMo steel can be prolonged.

Description

technical field [0001] The invention relates to the field of metal heat treatment, in particular to a treatment method for improving the strength of 20CrMnMo steel. Background technique [0002] 20CrMnMo steel is widely used, and the requirements for its mechanical properties are getting higher and higher. The existing treatment method of 20CrMnMo steel is quenching after carburizing, and then tempering at low temperature, so that the steel parts show higher strength, hardness and wear resistance. After quenching, the steel parts will retain a certain amount of retained austenite, which is an unstable phase and will transform into martensite in the subsequent processing or service process, affecting the dimensional stability of the workpiece. The instability of austenite is prone to volume changes caused by structural transformation, resulting in metal fragmentation. Moreover, there are many physical properties, especially thermal properties and magnetic properties. [0003...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21D6/00C21D6/04C21D1/18C22C38/04C22C38/02C22C38/44
CPCC21D6/004C21D1/18C21D6/005C21D6/04C21D2211/008C22C38/02C22C38/04C22C38/44
Inventor 蒋显全李亚微成卓齐保佘欣未
Owner SOUTHWEST UNIV
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