200 ~ 600 ℃ Elevated Temperature Fatigue Properties of 00Crl8Nil0N Austenitic Stainless Steel

柳木桐; 王或.; 钟平; 田野; 赵振业

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200 ~ 600 ℃ Elevated Temperature Fatigue Properties of 00Crl8Nil0N Austenitic Stainless Steel

更新时间：2026-01-21

- 200 ~ 600 ℃ Elevated Temperature Fatigue Properties of 00Crl8Nil0N Austenitic Stainless Steel
- Special Steel Vol. 43, Issue 4, Pages: 100-103(2022)
- 作者机构：
  
  中国航发北京航空材料研究院,北京,100095
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：20 May 2022，
  
  Online First：21 August 2022，
  
  Published：21 August 2022
- 稿件说明：
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柳木桐, 王或., 钟平, et al. 200 ~ 600 ℃ Elevated Temperature Fatigue Properties of 00Crl8Nil0N Austenitic Stainless Steel[J]. Special Steel, 2022, 43(4): 100-103.
DOI：

柳木桐, 王或., 钟平, et al. 200 ~ 600 ℃ Elevated Temperature Fatigue Properties of 00Crl8Nil0N Austenitic Stainless Steel[J]. Special Steel, 2022, 43(4): 100-103. DOI：

摘要

试验用00Cr18Ni10N钢（/%:0.018C

0.41Si

1.68Mn

18.18Cr

10.38Ni

0.16N）经1t EAF-AOD-ESR冶炼

锻成Φ30 mm材和1 050℃固溶处理

进行了00Cr18Ni10N钢200～600℃光滑（K

=1）、缺口（K

=3）的轴向高周疲劳性能研究

绘制了疲劳S-N曲线、计算了疲劳极限

并对疲劳试样的典型断口进行了SEM观察。结果表明

光滑试样的疲劳极限随试验温度升高而降低

缺口试样的疲劳极限对试验温度变化不敏感。当应力集中系数由K

=1提高到K

=3时

00Cr18Ni10N钢的200、400、600℃下10

周次条件疲劳极限分别从530、506、410 MPa

降低到323、370、392 MPa。表明在高温下00Cr18Ni10N钢存在疲劳极限对应力集中敏感

且应力集中敏感性随着试验温度的升高而降低。疲劳试样的断口形貌由疲劳源区、疲劳裂纹扩展区和瞬断区组成

疲劳起源于表面加工刀痕的不连续位置

呈韧性断裂特征。

Abstract

The tested 00Crl8Nil0N steel (/% ：0. 018C

0.41Si

1. 68Mn

18. 18Cr

10. 38Ni

0. 16N) is melted by 1 t EAF-AOD-ESR process

forged to Φ30 mm bar and solid-solution-treated at 1 050℃ . The axial high-cycle fatigue properties of 00Crl8Nil0N steel with two stress-concentration coefficients (SCs) ( smooth: K

= 1

notch:K

=3 ) at 200 ~ 600 ℃. are studied. The fatigue S-N curve is obtained

the fatigue limits of two SCs are calculated and the typical fracture morphologies of fatigue specimens are observed by SEM. The results show that fatigue limits of the smooth specimens decrease with increasing of test temperature

and the fatigue limits o

f the notch specimens are not sensitive to the change of test temperature. When SCs rises from K

=1 to K

= 3

the 10

cycles fatigue limits of 00Crl8Nil0N steel at 200

400

and 600 ℃ decreases respectively from 530、506、410 MPa to 323、370、392 MPa. It shows that the 00Crl8Ni10N steel has obvious fatigue limit stress concentration sensitivity at elevated temperatures

and the stress concentration sensitivity decreases with increasing of test temperature. The fracture of the fatigue specimen is composed of three parts： the fatigue source zone

the fatigue crack propagation zone and the instant fracture zone. The fatigue originates from the discontinuous positions of the surface machined tool marks and exhibits a ductile-fracture characteristic.

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