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	Microstructure features induced by fatigue crack initiation up to very-high-cycle regime for an additively manufactured aluminium alloy 期刊论文 JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 2024, 卷号: 173, 页码: 247-260 作者: Pan XN(潘向南); Du, Leiming; Qian GA(钱桂安); Hong YS(洪友士) 收藏 \| 浏览/下载：133/0 \| 提交时间：2023/11/06 Aluminium alloy Additive manufacturing Nanograins Very-high-cycle fatigue (VHCF) Crack initiation Mean stress
	Multi-scale fatigue failure features of titanium alloys with equiaxed or bimodal microstructures from low-cycle to very-high-cycle loading numbers 期刊论文 MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2024, 卷号: 890, 页码: 13 作者: Pan, Xiangnan; Su, Hang; Liu, Xiaolong; Hong, Youshi 收藏 \| 浏览/下载：51/0 \| 提交时间：2024/01/08 Titanium alloy Very-high-cycle fatigue Crack initiation Crack growth threshold Facet Equiaxed or bimodal microstructure
	Laser powder bed fused 304L steel shot-peened with various ceramic shot sizes: Surface/subsurface characteristics, tensile behavior, and fatigue behavior 期刊论文 INTERNATIONAL JOURNAL OF PLASTICITY, 2023, 卷号: 171, 页码: 21 作者: Zhang, Hongzhuang; Cao, Shujie; Li, Changyou; Li, Bing; Qian GA(钱桂安) Adobe PDF(50378Kb) \| 收藏 \| 浏览/下载：50/0 \| 提交时间：2024/01/01 Laser powder bed fusion Shot peening Shot size Microstructural evolution Strengthening mechanism
	Nanograin formation and cracking mechanism in Ti alloys under very high cycle fatigue loading 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 167, 页码: 10 作者: Sun CQ(孙成奇); Wu H(仵涵); Chi, Weiqian; Wang, Wenjing; Zhang, Guang-Ping Adobe PDF(22393Kb) \| 收藏 \| 浏览/下载：110/0 \| 提交时间：2023/01/12 Titanium alloy Very high cycle fatigue Twinning Nanograins Cracking mechanism
	High cycle and very high cycle fatigue of TC17 titanium alloy: Stress ratio effect and fatigue strength modeling 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 166, 页码: 16 作者: Li G(李根); Ke, Lei; Ren, Xuechong; Sun CQ(孙成奇) Adobe PDF(30455Kb) \| 收藏 \| 浏览/下载：209/0 \| 提交时间：2022/11/28 TC17 titanium alloy High cycle fatigue Very high cycle fatigue Stress ratio Crack initiation mechanism Fatigue strength modeling
	Micromechanics Modeling of Transverse Tensile Strength for Unidirectional CFRP Composite 期刊论文 MATERIALS, 2022, 卷号: 15, 期号: 23, 页码: 14 作者: Liu, Liangbao; Zhang, Xiaohui; Wang ZB(王子标); Wang, Yana; Guo, Jiangzhen Adobe PDF(3111Kb) \| 收藏 \| 浏览/下载：254/131 \| 提交时间：2023/01/12 unidirectional fiber-reinforced composites transverse strength prediction micromechanics modeling stress concentration factor stress field in matrix
	High-temperature failure mechanism and defect sensitivity of TC17 titanium alloy in high cycle fatigue 期刊论文 JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 2022, 卷号: 122, 页码: 128-140 作者: Li G(李根); Sun CQ(孙成奇) Adobe PDF(7244Kb) \| 收藏 \| 浏览/下载：218/38 \| 提交时间：2022/06/10 TC17 titanium alloy High temperature Defect High cycle fatigue Oxygen-rich layer Rough area
	Mechanism of artificial surface defect induced cracking for very high cycle fatigue of Ti alloys 期刊论文 ENGINEERING FRACTURE MECHANICS, 2022, 卷号: 272, 页码: 11 作者: Sun, Jian; Peng, Wenjie; Sun CQ(孙成奇) Adobe PDF(17356Kb) \| 收藏 \| 浏览/下载：160/28 \| 提交时间：2022/09/27 TC17 titanium alloy Artificial surface defect Very high cycle fatigue Crack initiation mechanism Deformation twins
	Interior initiation and early growth of very high cycle fatigue crack in an additively manufactured Ti-alloy 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2022, 卷号: 160, 页码: 9 作者: Chi, Weiqian; Li G(李根); Wang, Wenjing; Sun CQ(孙成奇) Adobe PDF(10381Kb) \| 收藏 \| 浏览/下载：123/24 \| 提交时间：2022/07/18 Additively manufactured titanium alloy Very high cycle fatigue Interior crack initiation Ultralow crack growth rate Grain refinement
	Mechanism of subsurface microstructural fatigue crack initiation during high and very-high cycle fatigue of advanced bainitic steels 期刊论文 JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 2022, 卷号: 108, 页码: 142-157 作者: Gao, Guhui; Liu, Rong; Fan, Yusong; Qian GA(钱桂安); Gui, Xiaolu; Misra, RDK.; Bai, Bingzhe Adobe PDF(8608Kb) \| 收藏 \| 浏览/下载：191/34 \| 提交时间：2022/06/10 Microstructure Advanced bainitic steels Very high cycle fatigue Mechanism Retained austenite

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