Transformation of Phases and Structure in Elevated-Temperature Deformed High Carbon Alloy Steel 75Cr1

胡松涛; 余万华; 廉晓洁; 翟士斌

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Transformation of Phases and Structure in Elevated-Temperature Deformed High Carbon Alloy Steel 75Cr1

更新时间：2026-01-21

- Transformation of Phases and Structure in Elevated-Temperature Deformed High Carbon Alloy Steel 75Cr1
- Special Steel Vol. 37, Issue 1, Pages: 57-59(2016)
- 作者机构：
  
  1. 太原钢铁(集团)有限公司技术中心,太原,030003
  2. 北京科技大学材料科学与工程学院,北京,100083
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Online First：25 August 2022，
  
  Published：25 August 2016
- 稿件说明：
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胡松涛, 余万华, 廉晓洁, et al. Transformation of Phases and Structure in Elevated-Temperature Deformed High Carbon Alloy Steel 75Cr1[J]. Special Steel, 2016, 37(1): 57-59.
DOI：

胡松涛, 余万华, 廉晓洁, et al. Transformation of Phases and Structure in Elevated-Temperature Deformed High Carbon Alloy Steel 75Cr1[J]. Special Steel, 2016, 37(1): 57-59. DOI：

摘要

通过Gleeble-3800热模拟机将高碳合金钢75Cr1(/%:0.75C

0.27Si

0.85Mn

0.010P

0.003S

0.60Cr)在1090℃以15 s

-1

进行第1道次25%压缩变形

以20℃/s冷却至880℃

20 s

-1

进行第2道次25%压缩变形

再分别以0.05~45℃/s不同冷速冷却至室温

得出连续冷却转变(CCT)曲线和冷却速率对该钢相和组织的影响。结果表明

相变临界Ac

和Ac

分别为730℃和773℃;冷速低于1℃/s时钢的组织主要为先共析铁素体和细小珠光体

冷速在1~10℃/s时钢的组织为珠光体和贝氏体

冷速高于10℃/s时组织中会出现马氏体

马氏体会随着冷速的增加逐渐增多

当冷速大于18℃/s时

钢的组织以马氏体为主

含有极少量的贝氏体。

Abstract

The continuous cooling transformation ( CCT) curves of high carbon alloy steel 75Crl (/% : 0. 75C

0. 27Si

0. 85Mn

0. 010P

0.003S

0.60Cr) and the effect of cooling rate on phases and structure of steel are obtained by Gleeble-3800 thermal simulation testing machine to carry out first reduction 25% deformation with deformation rate 15 s"1 at 1 090 °C then with 20 °C/s cooling to 880 °C and second reduction 25% with deformation rate 20 s

-1

then with 0. 05 〜 45 ℃ /s cooling to ambient temperature. Results show that the critical points of phase transformation Ac

and Ac

are respectively 730 °C and 773 °C ; with cooling rate being lower than 1°C /s the main structure of steel is proeutectoid ferrite and fine pearlite

with cooling rate being 1 〜

10 °C/s

the structure of steel is pearlite and bainite; with cooling rate being larger than 10 °C/s the martensite occurs in structure and with increasing cooling rate the amount of martensite increases

and with cooling rate being larger than 18 °C/s the main structure of steel is martensite and has minor bainite.

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