Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Christian Demminger
  • Christian Klose

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Details

OriginalspracheEnglisch
Titel des SammelwerksMagnesium Technology 2017
Herausgeber/-innenNeale R. Neelameggham, Alok Singh, Kiran N. Solanki, Dmytro Orlov
Herausgeber (Verlag)Springer International Publishing AG
Seiten537-542
Seitenumfang6
ISBN (elektronisch)9783319523927
ISBN (Print)9783319523910
PublikationsstatusVeröffentlicht - 16 Feb. 2017
VeranstaltungInternational Symposium on Magnesium Technology, 2017 - San Diego, USA / Vereinigte Staaten
Dauer: 26 Feb. 20172 März 2017

Publikationsreihe

NameThe Minerals, Metals & Materials Series
BandPart F8
ISSN (Print)2367-1181
ISSN (elektronisch)2367-1696

Abstract

Magnetic magnesium alloys have inherent magnetic properties due to the alloying element cobalt. Thus, the entire structural component made from such an alloy can be utilized for mechanical load measurements using the harmonic analysis of eddy current signals. Because the solubility of cobalt in the magnesium matrix is negligible, the magnetic properties mainly originate from cobalt-rich precipitates. Both the mechanical properties and the magnetic properties are influenced significantly by other alloying elements, such as zinc, as well as the material’s microstructure. Two issues of the ternary magnetic magnesium alloy Mg-Co4-Zn2 are described in this study. The magnetic properties were characterized by using the magnetoelastic effect and the harmonic analysis of eddy current signals. In addition, the mechanical properties of specimens made from the extruded profiles were determined using tensile and rotating bending tests. A substantial dependence on the processing conditions was observed both for the mechanical and magnetic properties.

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Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys. / Demminger, Christian; Klose, Christian.
Magnesium Technology 2017. Hrsg. / Neale R. Neelameggham; Alok Singh; Kiran N. Solanki; Dmytro Orlov. Springer International Publishing AG, 2017. S. 537-542 (The Minerals, Metals & Materials Series; Band Part F8).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Demminger, C & Klose, C 2017, Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys. in NR Neelameggham, A Singh, KN Solanki & D Orlov (Hrsg.), Magnesium Technology 2017. The Minerals, Metals & Materials Series, Bd. Part F8, Springer International Publishing AG, S. 537-542, International Symposium on Magnesium Technology, 2017, San Diego, USA / Vereinigte Staaten, 26 Feb. 2017. https://doi.org/10.1007/978-3-319-52392-7_74
Demminger, C., & Klose, C. (2017). Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys. In N. R. Neelameggham, A. Singh, K. N. Solanki, & D. Orlov (Hrsg.), Magnesium Technology 2017 (S. 537-542). (The Minerals, Metals & Materials Series; Band Part F8). Springer International Publishing AG. https://doi.org/10.1007/978-3-319-52392-7_74
Demminger C, Klose C. Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys. in Neelameggham NR, Singh A, Solanki KN, Orlov D, Hrsg., Magnesium Technology 2017. Springer International Publishing AG. 2017. S. 537-542. (The Minerals, Metals & Materials Series). doi: 10.1007/978-3-319-52392-7_74
Demminger, Christian ; Klose, Christian. / Mechanical Properties and Fatigue Strength of Extruded Cobalt-Containing Magnetic Magnesium Alloys. Magnesium Technology 2017. Hrsg. / Neale R. Neelameggham ; Alok Singh ; Kiran N. Solanki ; Dmytro Orlov. Springer International Publishing AG, 2017. S. 537-542 (The Minerals, Metals & Materials Series).
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abstract = "Magnetic magnesium alloys have inherent magnetic properties due to the alloying element cobalt. Thus, the entire structural component made from such an alloy can be utilized for mechanical load measurements using the harmonic analysis of eddy current signals. Because the solubility of cobalt in the magnesium matrix is negligible, the magnetic properties mainly originate from cobalt-rich precipitates. Both the mechanical properties and the magnetic properties are influenced significantly by other alloying elements, such as zinc, as well as the material{\textquoteright}s microstructure. Two issues of the ternary magnetic magnesium alloy Mg-Co4-Zn2 are described in this study. The magnetic properties were characterized by using the magnetoelastic effect and the harmonic analysis of eddy current signals. In addition, the mechanical properties of specimens made from the extruded profiles were determined using tensile and rotating bending tests. A substantial dependence on the processing conditions was observed both for the mechanical and magnetic properties.",
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N2 - Magnetic magnesium alloys have inherent magnetic properties due to the alloying element cobalt. Thus, the entire structural component made from such an alloy can be utilized for mechanical load measurements using the harmonic analysis of eddy current signals. Because the solubility of cobalt in the magnesium matrix is negligible, the magnetic properties mainly originate from cobalt-rich precipitates. Both the mechanical properties and the magnetic properties are influenced significantly by other alloying elements, such as zinc, as well as the material’s microstructure. Two issues of the ternary magnetic magnesium alloy Mg-Co4-Zn2 are described in this study. The magnetic properties were characterized by using the magnetoelastic effect and the harmonic analysis of eddy current signals. In addition, the mechanical properties of specimens made from the extruded profiles were determined using tensile and rotating bending tests. A substantial dependence on the processing conditions was observed both for the mechanical and magnetic properties.

AB - Magnetic magnesium alloys have inherent magnetic properties due to the alloying element cobalt. Thus, the entire structural component made from such an alloy can be utilized for mechanical load measurements using the harmonic analysis of eddy current signals. Because the solubility of cobalt in the magnesium matrix is negligible, the magnetic properties mainly originate from cobalt-rich precipitates. Both the mechanical properties and the magnetic properties are influenced significantly by other alloying elements, such as zinc, as well as the material’s microstructure. Two issues of the ternary magnetic magnesium alloy Mg-Co4-Zn2 are described in this study. The magnetic properties were characterized by using the magnetoelastic effect and the harmonic analysis of eddy current signals. In addition, the mechanical properties of specimens made from the extruded profiles were determined using tensile and rotating bending tests. A substantial dependence on the processing conditions was observed both for the mechanical and magnetic properties.

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