Improved fatigue resistance of gradient nanograined Cu
Long, Jianzhou; Pan, Qingsong; Tao, Nairong; Dao, Ming; Suresh, Subra; Lu, Lei
Source PublicationACTA MATERIALIA
AbstractCyclic stresses generally lead to fatigue damage and failure with important implications for material and component design, safety, performance and lifetime costs in major structural applications. Here we present unique results for copper to demonstrate that a thin superficial layer of graded surface nanostructure over a coarse-grained core suppresses strain localization and surface roughening, thereby imparting unprecedented resistance to both low-cycle and high-cycle fatigue without compromising ductility. Progressive homogenization of the surface-graded copper is shown to be superior in fatigue properties compared to that of any of its homogeneous counterparts with micro-, submicro- or nanograined structures. Since the findings here for enhancing resistance to fatigue are broadly applicable to a wide spectrum of engineering metals and alloys, the present results offer unique pathways to mitigate fatigue damage using a broad variety of processing routes, geometric design considerations, and structural parameters in many practical applications. (C) 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
KeywordGraded nanostructures Surface engineering Fatigue resistance Surface roughening Microstructural convergence
Indexed BySCI
WOS IDWOS:000459358200006
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Cited Times:6[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
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GB/T 7714
Long, Jianzhou,Pan, Qingsong,Tao, Nairong,et al. Improved fatigue resistance of gradient nanograined Cu[J]. ACTA MATERIALIA,2019,166:56-66.
APA Long, Jianzhou,Pan, Qingsong,Tao, Nairong,Dao, Ming,Suresh, Subra,&Lu, Lei.(2019).Improved fatigue resistance of gradient nanograined Cu.ACTA MATERIALIA,166,56-66.
MLA Long, Jianzhou,et al."Improved fatigue resistance of gradient nanograined Cu".ACTA MATERIALIA 166(2019):56-66.
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