Únavové chování a lomové charakteristiky UFG Cu nízké čistoty připravené pomocí ECAP techniky

Fatigue behavior and damage characteristic of ultra-fine grain low-purity copper processed by equal-channel angular pressing (ECAP)

článek v časopise - ostatní, Jost

en

The S-N and Coffin-Manson plot, cyclic stress-strain response, changes of microstructure, and the surface morphology of ultra-fine grain (UFG) low-purity copper processed by ECAP were tested and observed in present study. And the formation mechanism of shear bands was discussed in detail. The results show that the UFG Cu represents longer lifetime under stress-controlled fatigue, but lower fatigue resistance under straincontrolled fatigue when compared with the coarse grain counterpart. Cyclic stress-strain responses of UFG Cu under stress-controlled fatigue alter from cyclic softening to cyclic hardening as stress amplitude decreases. But the responses always show cyclic softening under strain-controlled fatigue in present testing. By electron back scattering diffraction and transmission electron microscope technique, the shear bands were discovered on the surface of all cycled samples and no grain coarsening was discovered near the shear bands, which indicated that there was no inevitable relationship between formation of SBs and cyclic softening/grain coarsening. The discovery should be related to impurities in copper. The oriented distribution of defects along the shear plane in the last ECAP processing is one of the major mechanisms of SBs formation.

V této práci byly studovány S-N a Manson-Coffin křivky, cyklická napěťově-deformační odezva, změny mikrostruktury a povrchová morfologie UFG Cu nízké čistoty připravené pomocí ECAP techniky. Detailně je diskutován mechanismus formování smykových pásů. Výsledky ukazují, že UFG Cu má vyšší únavovou životnost v režimu řízeného napětí. V režimu řízené deformace byla pozorována nižší únavová pevnost. Pomocí TEM a EBSD techniky nebyly pozorovány žádné změny mikrostruktury během cyklického zatěžování.

The S-N and Coffin-Manson plot, cyclic stress-strain response, changes of microstructure, and the surface morphology of ultra-fine grain (UFG) low-purity copper processed by ECAP were tested and observed in present study. And the formation mechanism of shear bands was discussed in detail. The results show that the UFG Cu represents longer lifetime under stress-controlled fatigue, but lower fatigue resistance under straincontrolled fatigue when compared with the coarse grain counterpart. Cyclic stress-strain responses of UFG Cu under stress-controlled fatigue alter from cyclic softening to cyclic hardening as stress amplitude decreases. But the responses always show cyclic softening under strain-controlled fatigue in present testing. By electron back scattering diffraction and transmission electron microscope technique, the shear bands were discovered on the surface of all cycled samples and no grain coarsening was discovered near the shear bands, which indicated that there was no inevitable relationship between formation of SBs and cyclic softening/grain coarsening. The discovery should be related to impurities in copper. The oriented distribution of defects along the shear plane in the last ECAP processing is one of the major mechanisms of SBs formation.

Měď, Ultrajemnozrnná struktura, ECAP, Únavové chování, Skluzové pásy

Copper; Ultra-fine grain structure; ECAP; Fatigue behavior; Shear bands

2008

17.04.2007

Elsevier

0921-5093

Materials Science and Engineering A

2008

475

249–256

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