Detail publikace
Fatigue Property of UFG Cu by ECAP
WANG, Q. XU, C. ZHENG, M. ZHU, J. BUKSA, M. KUNZ, L.
Český název
Fatigue Property of UFG Cu by ECAP
Anglický název
Fatigue Property of UFG Cu by ECAP
Typ
článek v časopise - ostatní, Jost
Jazyk
zh
Originální abstrakt
The fatigue life and cyclic deformation behavior of UFG copper produced by equal channel angular pressing (ECAP) were studied and the changes of the grain size and the development of slip bands are observed by means of SEM electron back scattering diffraction and SEM, respectively. The result shows that the fatigue limit of the UFG copper corresponding to 107 cycles is 153 MPa which is the double of fatigue limit of the coarse grained (CG) copper. Cyclic softening occurs in the low-cycle fatigue region whereas stable cyclic behavior or even cyclic hardening occurs in the high-cycle region. Persistent slip bands (PSB)-like shear bands (SBs) are approximately parallel to the shearing plane of last pressing. The formation of SBs and grain boundary sliding are the main factor causing crack nucleation as well as fatigue failure.
Český abstrakt
The fatigue life and cyclic deformation behavior of UFG copper produced by equal channel angular pressing (ECAP) were studied and the changes of the grain size and the development of slip bands are observed by means of SEM electron back scattering diffraction and SEM, respectively. The result shows that the fatigue limit of the UFG copper corresponding to 107 cycles is 153 MPa which is the double of fatigue limit of the coarse grained (CG) copper. Cyclic softening occurs in the low-cycle fatigue region whereas stable cyclic behavior or even cyclic hardening occurs in the high-cycle region. Persistent slip bands (PSB)-like shear bands (SBs) are approximately parallel to the shearing plane of last pressing. The formation of SBs and grain boundary sliding are the main factor causing crack nucleation as well as fatigue failure.
Anglický abstrakt
The fatigue life and cyclic deformation behavior of UFG copper produced by equal channel angular pressing (ECAP) were studied and the changes of the grain size and the development of slip bands are observed by means of SEM electron back scattering diffraction and SEM, respectively. The result shows that the fatigue limit of the UFG copper corresponding to 107 cycles is 153 MPa which is the double of fatigue limit of the coarse grained (CG) copper. Cyclic softening occurs in the low-cycle fatigue region whereas stable cyclic behavior or even cyclic hardening occurs in the high-cycle region. Persistent slip bands (PSB)-like shear bands (SBs) are approximately parallel to the shearing plane of last pressing. The formation of SBs and grain boundary sliding are the main factor causing crack nucleation as well as fatigue failure.
Klíčová slova česky
equal channel angular pressing (ECAP), ultrafine-grained copper, fatigue limit, shear bands
Klíčová slova anglicky
equal channel angular pressing (ECAP), ultrafine-grained copper, fatigue limit, shear bands
Rok RIV
2007
Vydáno
01.05.2007
Místo
Čína
ISSN
0412-1961
Časopis
ACTA METALLURGICA SINICA
Ročník
43
Číslo
5
Strany od–do
498–502
Počet stran
5
BIBTEX
@article{BUT44578,
author="Qingjuan {Wang} and Changzheng {Xu} and Maosheng {Zheng} and Jiewu {Zhu} and Michal {Buksa} and Ludvík {Kunz},
title="Fatigue Property of UFG Cu by ECAP",
journal="ACTA METALLURGICA SINICA",
year="2007",
volume="43",
number="5",
month="May",
pages="498--502",
address="Čína",
issn="0412-1961"
}