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科研机构
金属研究所 [13]
力学研究所 [11]
四川大学 [2]
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期刊论文 [26]
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Microstructure evolution and very-high-cycle fatigue crack initiation behavior of a structural steel with two loading intermittence modes
期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2022, 卷号: 161, 页码: 11
作者:
Zhou, Yadong
;
Sun, Jingyu
;
Pan, Xiangnan
;
Qian, Guian
;
Hong, Youshi
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  |  
浏览/下载:23/0
  |  
提交时间:2022/07/18
Loading intermittence
Microstructure evolution
Very-high-cycle fatigue
Facet
Slip system
Very-high-cycle fatigue behavior of AlSi10Mg manufactured by selective laser melting: Effect of build orientation and mean stress
期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2020, 卷号: 138, 页码: 9
作者:
Qian GA(钱桂安)
;
Jian ZM
;
Qian YJ
;
Pan XN(潘向南)
;
Ma XF
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  |  
浏览/下载:13/0
  |  
提交时间:2020/08/26
Selective laser melting
Very-high-cycle fatigue
AlSi10Mg
Crack initiation
Fatigue strength
High-cycle and very-high-cycle fatigue behaviour of a titanium alloy with equiaxed microstructure under different mean stresses
期刊论文
FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2019, 卷号: 42, 期号: 9, 页码: 1950-1964
作者:
Pan XN(潘向南)
;
Hong YS(洪友士)
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  |  
浏览/下载:1/0
  |  
提交时间:2019/10/14
fatigue crack initiation
mean stress
stress ratio
titanium alloy
very-high-cycle fatigue
The behavior of crack initiation and early growth in high-cycle and very-high-cycle fatigue regimes for a titanium alloy
期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2018, 卷号: 115, 期号: SI, 页码: 67-78
作者:
Pan XN
;
Su Hang
;
Sun CQ(孙成奇)
;
Hong YS(洪友士)
;
Hong YS(洪友士)
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  |  
浏览/下载:51/0
  |  
提交时间:2018/12/12
Very-high-cycle fatigue
Crack initiation
Mean stress
Titanium alloy
Equiaxed microstructure
A Method for Predicting the Effects of Specimen Geometry and Loading Condition on Fatigue Strength
期刊论文
METALS, 2018, 卷号: 8, 期号: 10, 页码: Ar-811
作者:
Sun CQ(孙成奇)
;
Song QY
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  |  
浏览/下载:44/0
  |  
提交时间:2018/12/12
notch effect
size effect
loading condition
fatigue strength
control volume
titanium alloy
Effects of Loading Frequency and Loading Type on High-Cycle and Very-High-Cycle Fatigue of a High-Strength Steel
期刊论文
MATERIALS, MATERIALS, 2018, 2018, 卷号: 11, 11, 期号: 8, 页码: 1456, 1456
作者:
Hu YP(胡远培)
;
Sun CQ(孙成奇)
;
Xie JJ(谢季佳)
;
Hong YS(洪友士)
;
Hong YS(洪友士)
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  |  
浏览/下载:62/0
  |  
提交时间:2018/10/30
loading frequency
loading frequency
loading type
loading type
very-high-cycle fatigue
very-high-cycle fatigue
fatigue strength
fatigue strength
high-strength steel
high-strength steel
A model to predict S-N curves for surface and subsurface crack initiations in different environmental media
期刊论文
International Journal of Fatigue, 2015, 卷号: 71, 页码: 35-44
作者:
Qian GA(钱桂安)
;
Zhou CE(周承恩)
;
Hong YS(洪友士)
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  |  
浏览/下载:20/0
  |  
提交时间:2015/04/16
Very-high-cycle fatigue
Aqueous environment
Fatigue life
Fatigue crack initiation
Structural steel
Gigacycle Fatigue Behavior of 1800 MPa Grade High Strength Spring Steel for Automobile Lightweight
期刊论文
Journal of Iron and Steel Research International, 2014, 卷号: 21, 期号: 6, 页码: 614-618
J. M. Zhang
;
L. K. Ji
;
D. J. Bao
;
Y. R. Feng
;
S. X. Li
;
Y. Q. Weng
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  |  
浏览/下载:41/0
  |  
提交时间:2015/01/14
gigacycle fatigue
S-N curve
fractography
fish-eye
inclusion
statistics of extreme value (SEV)
generalized Pareto distribution (GPD)
high cycle fatigue
inclusion size
clean steels
statistics
extremes
regime
General relation between tensile strength and fatigue strength of metallic materials
期刊论文
Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2013, 卷号: 564, 页码: 331-341
J. C. Pang
;
S. X. Li
;
Z. G. Wang
;
Z. F. Zhang
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  |  
浏览/下载:21/0
  |  
提交时间:2013/12/24
High-strength materials
Tensile strength
Fatigue strength
Fatigue
crack initiation site
Fatigue damage mechanism
high-cycle fatigue
severe plastic-deformation
inclusion size
bearing
steel
ultrahigh strength
gigacycle fatigue
carbon-steels
behavior
regime
cu
Influence of Hydrogen on GBF in Very High Cycle Fatigue of High Strength Steel
期刊论文
JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, 2013, 卷号: 20, 期号: 12, 页码: 92-97
作者:
Zhou Chao
;
Zhang Yongjian
;
Hui Weijun
;
Wang Lei
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  |  
浏览/下载:9/0
  |  
提交时间:2021/02/02
SUBSURFACE CRACK INITIATION
CHROMIUM-BEARING STEEL
LONG-LIFE FATIGUE
GIGACYCLE FATIGUE
REGIME
MECHANISM
FAILURE
BEHAVIOR
SIZE
hydrogen
granular bright facet
very high cycle fatigue
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