Effect of Precipitated Phases in New Steel 4Cr3.75MoSiV for Extrusion Wheel on Thermal Fatigue Behavior

费阳; 刘宏玉; 汪圣锋; 万宝意; 林冲; 王红军

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Effect of Precipitated Phases in New Steel 4Cr3.75MoSiV for Extrusion Wheel on Thermal Fatigue Behavior

更新时间：2026-01-21

- Effect of Precipitated Phases in New Steel 4Cr3.75MoSiV for Extrusion Wheel on Thermal Fatigue Behavior
- Special Steel Vol. 34, Issue 6, Pages: 49-51(2013)
- 作者机构：
  
  1. 武汉科技大学理学院
  2. 冶金工业过程系统科学湖北省重点实验室,武汉,430065
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：27 May 2013，
  
  Online First：08 September 2022，
  
  Published：08 September 2013
- 稿件说明：
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费阳, 刘宏玉, 汪圣锋, et al. Effect of Precipitated Phases in New Steel 4Cr3.75MoSiV for Extrusion Wheel on Thermal Fatigue Behavior[J]. Special Steel, 2013, 34(6): 49-51.
DOI：

费阳, 刘宏玉, 汪圣锋, et al. Effect of Precipitated Phases in New Steel 4Cr3.75MoSiV for Extrusion Wheel on Thermal Fatigue Behavior[J]. Special Steel, 2013, 34(6): 49-51. DOI：

摘要

开发的新型挤压轮用钢4Cr3.75MoSiV(/%:0.39C、0.95Si、0.35Mn、3.75Cr、1.25Mo、0.99V、0.009 5N)和常用挤压轮钢4Cr5MoSiV(/%:0.42C、1.20Si、0.38Mn、5.04Cr、1.14Mo、0.85V、0.035 0N)由10 kg真空感应炉熔炼

并锻成Φ18 mm试验用棒材

然后经880℃1 h+720℃1 h球化退火

1 080℃15 min油淬

550℃2 h+530℃2 h两次回火处理。研究了两种钢主要析出碳化物形貌、尺寸

析出比例和分布以及对500次600℃-室温连续热疲劳性能的影响。结果表明

含5.04%Cr的4Cr5MoSiV常用钢的析出物中V

+VC占12%

并有26%Cr

析出

而开发的4Cr3.75MoSiV新型钢中有利于提高热疲劳性能的析出物V

+VC占31%

未发现Cr

析出物;4Cr5MoSiV钢热疲劳损伤因子3.18×10

-3

连续热疲劳试验表面裂纹比热疲劳损伤因子为1.77×10

-3

的新型4Cr3.75MoSiV钢表面裂纹粗大。

Abstract

The developed new steel 4Cr3. 75MoSiV for extrusion wheel （/% ： 0. 39C

0. 95Si

0. 35Mn

3. 75Cr

1. 25Mo

0. 99V

0.009 5N） and common steel 4Cr5MoSiV for extrusion wheel （/% ： 0. 42C

1. 20Si

0. 38Mn

5. 04Cr

1. 14Mo

0. 85V

0.035 ON） are melted by a 10 kg vacuum induction furnace

and forged to Φ18 mm bar for test

then 880 ℃ 1 h +720 °C. 1 h spheroidal annealing

108 0 ℃ 15 min oil quenching

550 ℃ 2 h +530 ℃ 2 h double tempering. The morphology

size

precipitates ratio and distribution of main carbide precipitates in both steels as well as the effect of p

recipitates on 500 times 600 °C -ambient continuous thermal fatigue behavior are studied. Results show that V

+ VC amount to 12% of total precipitates and there is 26% Cr

precipitate in common steel 4Cr5MoSiV containing 5. 04% Cr

while in developed new steel 4Cr3. 75MoSiV the V

+ VC

which are favourable to increase thermal fatigue behavior

amount to 31% of total precipitates and the Cr

precipitate has not been found in new steel ； after continuous thermal fatigue test the surface crack of steel 4Cr5MoSiV with thermal fatigue factor 3. 18 x 10

-3

is coarser and larger than that of steel 4Cr3.75MoSiV with thermal fatigue factor 1. 77 x 10

-3

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