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中国科学院力学研究所机构知识库
Knowledge Management System of Institue of Mechanics, CAS
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洪友士 [5]
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Indexed By:EI
Creator:hongyoushi分洪友士
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再论超高周疲劳裂纹萌生特征区
期刊论文
力学学报, 2022, 卷号: 54, 期号: 08, 页码: 2101-2118
Authors:
洪友士
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View/Download:159/52
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Submit date:2022/11/14
超高周疲劳
裂纹萌生
特征区
高强钢
钛合金
合金材料超高周疲劳的机理与模型综述
期刊论文
力学进展, 2018, 卷号: 48, 期号: 1, 页码: 1-65
Authors:
洪友士
;
孙成奇
;
刘小龙
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View/Download:286/65
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Submit date:2018/10/24
超高周疲劳
裂纹萌生
特征尺度
疲劳强度
疲劳寿命
合金材料
微结构和应力比对Ti-6A1-4V高周和超高周疲劳行为的影响
期刊论文
金属学报, 2016, 卷号: 52, 期号: 8, 页码: 923-930
Authors:
刘小龙
;
孙成奇
;
周砚田
;
洪友士
;
Hong, YS
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Adobe PDF(7544Kb)
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View/Download:288/42
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Submit date:2016/12/16
Ti-6a1-4v Alloy
Very-high-cycle Fatigue
Microstructure
Stress Ratio
Slip Mechanism
Cleavage Mechanism
表面纳米化Zr的拉伸性能
期刊论文
材料热处理学报, 2005, 卷号: 26, 期号: 3, 页码: 73-75
Authors:
孙彩云
;
武晓雷
;
洪友士
Adobe PDF(514Kb)
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View/Download:646/164
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Submit date:2007/06/15
表面纳米化
拉伸性能
表面机械研磨处理
锆
In Situ Synthesis of Nanocrystalline Intermetallic Compound Layer during Surface Mechanical Attrition Treatment of Zirconium
期刊论文
材料热处理学报, 2004, 卷号: 25, 期号: 5II, 页码: 1242-1246
Authors:
Sun CY(孙彩云)
;
Xie JJ(谢季佳)
;
Wu XL(武晓雷)
;
Hong YS(洪友士)
;
Liu G
;
Lu J
;
Lu K
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View/Download:556/198
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Submit date:2014/01/20
Nanocrystalline
Intermetallic Compound
Surface Layer
Deformation
Diffusion
