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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
	Crack initiation induced nanograins and facets of a titanium alloy with lamellar and equiaxed microstructure in very-high-cycle fatigue 期刊论文 MATERIALS LETTERS, 2024, 卷号: 357, 页码: 5 作者: Pan XN(潘向南); Xu, Shouwen; Nikitin, Alexander; Shanyavskiy, Andrey; PalinLuc, Thierry; Hong YS(洪友士) 收藏 \| 浏览/下载：34/0 \| 提交时间：2024/02/19 Titanium alloy Crack initiation Facet Nanograin Fatigue Microstructure
	A framework to simulate the crack initiation and propagation in very-high-cycle fatigue of an additively manufactured AlSi10Mg alloy 期刊论文 JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS, 2023, 卷号: 175, 页码: 105293 作者: Sun JY(孙经雨); Qian GA(钱桂安); Li JH(李江华); Li, Ruiyang; Jian, Zhimo; Hong YS(洪友士); Berto, Filippo Adobe PDF(6203Kb) \| 收藏 \| 浏览/下载：68/0 \| 提交时间：2023/06/15 Crystal plasticity Cohesive zone model Very-high-cycle fatigue Microstructure-sensitive fatigue Short crack growth
	Fatigue life prediction based on a deep learning method for Ti-6Al-4V fabricated by laser powder bed fusion up to very-high-cycle fatigue regime 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 172, 页码: 107645 作者: Jia, Yinfeng; Fu, Rui; Ling, Chao; Shen, Zheng; Zheng, Liang; Zhong, Zheng; Hong YS(洪友士) Adobe PDF(7230Kb) \| 收藏 \| 浏览/下载：53/0 \| 提交时间：2023/06/15 Fatigue life prediction Deep learning method Laser powder bed fusion Ti-6Al-4V Very -high -cycle fatigue
	Machine learning based very high cycle fatigue life prediction of AlSi10Mg alloy fabricated by selective laser melting 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 171, 页码: 107585 作者: Shi T(时涛); Sun JY(孙经雨); Li JH(李江华); Qian GA(钱桂安); Hong YS(洪友士) Adobe PDF(17637Kb) \| 收藏 \| 浏览/下载：72/0 \| 提交时间：2023/04/20 Very high cycle fatigue (VHCF) Machine learning (ML) Selective laser melting (SLM) Fatigue life prediction Interpolation
	Effects of loading frequency on fatigue behavior of metallic materials-A literature review 期刊论文 FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2023 作者: Hong YS(洪友士); Hu, Yuanpei; Zhao, Aiguo Adobe PDF(4219Kb) \| 收藏 \| 浏览/下载：58/0 \| 提交时间：2023/06/15 fatigue strength loading frequency metallic materials strain rate very-high-cycle fatigue
	High cycle and very high cycle fatigue behavior at two stress ratios of Ti 6Al 4V manufactured via laser powder bed fusion with different surface states 期刊论文 FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2023 作者: Fu, Rui; Zheng, Liang; Zhong, Zheng; Hong YS(洪友士) Adobe PDF(3071Kb) \| 收藏 \| 浏览/下载：47/0 \| 提交时间：2023/04/20 laser powder bed fusion stress ratio surface roughness Ti 6Al 4V very high cycle fatigue
	An experimental investigation of fatigue performance and crack initiation characteristics for an SLMed Ti-6Al-4V under different stress ratios up to very-high-cycle regime 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2022, 卷号: 164, 页码: 14 作者: Fu, Rui; Zheng, Liang; Ling, Chao; Zhong, Zheng; Hong YS(洪友士) Adobe PDF(26974Kb) \| 收藏 \| 浏览/下载：250/35 \| 提交时间：2022/08/28 Selective laser melting Ti-6Al-4V Very-high-cycle fatigue Crack initiation Stress intensity factor
	Very-high-cycle fatigue induced growth and amorphization of Si particles in additively manufactured AlSi10Mg alloy: Dependence of applied stress ratio 期刊论文 INTERNATIONAL JOURNAL OF FATIGUE, 2022, 卷号: 164, 页码: 107167 作者: Li JH(李江华); Sun JY(孙经雨); Li, Yajing; Qian GA(钱桂安); Wang, Zhiyang Adobe PDF(16133Kb) \| 收藏 \| 浏览/下载：173/23 \| 提交时间：2022/10/23 Very-high-cycle fatigue Stress ratio Coarsening Amorphization AlSi10Mg alloy
	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

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