Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy

Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy

Mg-Zn-Zr (ZK) alloys exhibit notably high mechanical strength amongst all magnesium alloy grades. However, due to the formation of low melting point Mg3Zn7-precipitates, these alloys are susceptible to hot cracking, thus compromising their metallurgical processing. The addition of rare earths to ZK...

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Main Authors: E.P. Silva, R.H. Buzolin, F. Marques, F. Soldera, U. Alfaro, H.C. Pinto
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2021-05-01
Series:Journal of Magnesium and Alloys
Subjects:
Magnesium alloys
Hot rolling
Mischmetal
Recrystallization
Microstructure
Mechanical properties
Online Access:http://www.sciencedirect.com/science/article/pii/S221395672030219X
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spelling doaj-07e290b464044319a03da21387835b602021-07-03T04:46:00ZengKeAi Communications Co., Ltd.Journal of Magnesium and Alloys2213-95672021-05-01939951006Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloyE.P. Silva0R.H. Buzolin1F. Marques2F. Soldera3U. Alfaro4H.C. Pinto5Institute of Engineering, Science and Technology (IECT), Federal University of Vales do Jequitinhonha e Mucuri (UFVJM), Janaúba, MG, Brazil; São Carlos School of Engineering (EESC), University of São Paulo (USP), Department of Materials Engineering, CEP 13563-120 São Carlos-SP, Brazil; Corresponding author at: Federal University of Vales do Jequitinhonha e Mucuri (UFVJM), Institute of Engineering, Science and Technology (IECT), Avenida Um, n° 4.050. Cidade Univ…, 39447-814 Janaúba, MG, Brazil.Christian Doppler Laboratory for Design of high-performance alloys by thermomechanical processing, Kopernikusgasse 24/I, 8010 Graz, Austria; Technische Universität Graz (TU Graz), Institute of Materials Science, Joining and Forming, Kopernikusgasse 24/I, 8010 Graz, AustriaSão Carlos School of Engineering (EESC), University of São Paulo (USP), Department of Materials Engineering, CEP 13563-120 São Carlos-SP, BrazilInstitute of Functional Materials, Department of Materials Science and Engineering, Saarland University, Saarbruecken, GermanyGerman Aerospace Center (DLR) Institute of Materials Research, Linder Höhe, 51147 Cologne, GermanySão Carlos School of Engineering (EESC), University of São Paulo (USP), Department of Materials Engineering, CEP 13563-120 São Carlos-SP, BrazilMg-Zn-Zr (ZK) alloys exhibit notably high mechanical strength amongst all magnesium alloy grades. However, due to the formation of low melting point Mg3Zn7-precipitates, these alloys are susceptible to hot cracking, thus compromising their metallurgical processing. The addition of rare earths to ZK alloys is an alternative to form higher melting point intermetallic compounds, speed up dynamic recrystallization, refine grain size, enhance corrosion resistance and extend the service temperature due to improved creep resistance. This work deals with the effect of Ce-base mischmetal addition on the hot rolling behaviour of as-cast ZK60 alloy. The microstructure investigation conducted using electron microscopy and X-Ray diffraction shows that precipitation of Mg7Zn3 intermetallics occur during hot rolling, whereas no further precipitation is observed for the ZK60-Mm alloys. The fragmentation of the intermetallic compounds occur during hot rolling and finer particles of Mg7Zn3 are observed for the ZK60, whereas Mg7Zn3 and MgZn2Ce intermetallics are formed in the alloy modified with mischmetal addition. A higher fraction of dynamically recrystallized grains is observed for the ZK60-Mm in comparison to the ZK60. Continuous recrystallization takes place in ZK60 with the formation of sub-grains near to the intermetallics and the addition of mischmetal promotes the occurrence of discontinuous recrystallization with the nucleation of new grains close to the precipitates. The mechanical strength and, in particular, the ductility of the hot-rolled alloys are notably improved when compared to the same alloys in the as-cast condition. The mechanical strength is, however, higher for the ZK60 alloy. Less solid solution strengthening, softer MgZn2Ce intermetallics and more extensive recrystallization contribute to reduce the mechanical strength of ZK60-Mm. Failure in both alloys are initiated at coarse intermetallics and propagate through intermetallic-rich regions.http://www.sciencedirect.com/science/article/pii/S221395672030219XMagnesium alloysHot rollingMischmetalRecrystallizationMicrostructureMechanical properties
collection DOAJ
language English
format Article
sources DOAJ
author E.P. Silva
R.H. Buzolin
F. Marques
F. Soldera
U. Alfaro
H.C. Pinto
spellingShingle E.P. Silva
R.H. Buzolin
F. Marques
F. Soldera
U. Alfaro
H.C. Pinto
Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
Journal of Magnesium and Alloys
Magnesium alloys
Hot rolling
Mischmetal
Recrystallization
Microstructure
Mechanical properties
author_facet E.P. Silva
R.H. Buzolin
F. Marques
F. Soldera
U. Alfaro
H.C. Pinto
author_sort E.P. Silva
title Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
title_short Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
title_full Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
title_fullStr Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
title_full_unstemmed Effect of Ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled ZK60 alloy
title_sort effect of ce-base mischmetal addition on the microstructure and mechanical properties of hot-rolled zk60 alloy
publisher KeAi Communications Co., Ltd.
series Journal of Magnesium and Alloys
issn 2213-9567
publishDate 2021-05-01
description Mg-Zn-Zr (ZK) alloys exhibit notably high mechanical strength amongst all magnesium alloy grades. However, due to the formation of low melting point Mg3Zn7-precipitates, these alloys are susceptible to hot cracking, thus compromising their metallurgical processing. The addition of rare earths to ZK alloys is an alternative to form higher melting point intermetallic compounds, speed up dynamic recrystallization, refine grain size, enhance corrosion resistance and extend the service temperature due to improved creep resistance. This work deals with the effect of Ce-base mischmetal addition on the hot rolling behaviour of as-cast ZK60 alloy. The microstructure investigation conducted using electron microscopy and X-Ray diffraction shows that precipitation of Mg7Zn3 intermetallics occur during hot rolling, whereas no further precipitation is observed for the ZK60-Mm alloys. The fragmentation of the intermetallic compounds occur during hot rolling and finer particles of Mg7Zn3 are observed for the ZK60, whereas Mg7Zn3 and MgZn2Ce intermetallics are formed in the alloy modified with mischmetal addition. A higher fraction of dynamically recrystallized grains is observed for the ZK60-Mm in comparison to the ZK60. Continuous recrystallization takes place in ZK60 with the formation of sub-grains near to the intermetallics and the addition of mischmetal promotes the occurrence of discontinuous recrystallization with the nucleation of new grains close to the precipitates. The mechanical strength and, in particular, the ductility of the hot-rolled alloys are notably improved when compared to the same alloys in the as-cast condition. The mechanical strength is, however, higher for the ZK60 alloy. Less solid solution strengthening, softer MgZn2Ce intermetallics and more extensive recrystallization contribute to reduce the mechanical strength of ZK60-Mm. Failure in both alloys are initiated at coarse intermetallics and propagate through intermetallic-rich regions.
topic Magnesium alloys
Hot rolling
Mischmetal
Recrystallization
Microstructure
Mechanical properties
url http://www.sciencedirect.com/science/article/pii/S221395672030219X
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