Effects of gadolinium and neodymium addition on young’s modulus of magnesium-based binary alloys
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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Magnesium Technology 2017. ed. / Neale R. Neelameggham; Alok Singh; Kiran N. Solanki; Dmytro Orlov. Springer International Publishing AG, 2017. p. 341-347 (Minerals, Metals and Materials Series; Vol. Part F8).
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TY - CHAP
T1 - Effects of gadolinium and neodymium addition on young’s modulus of magnesium-based binary alloys
AU - Xu, Yuling
AU - Li, Jie
AU - Zhong, Zhengye
AU - Kainer, Karl
AU - Hort, Norbert
PY - 2017
Y1 - 2017
N2 - In order to investigate the influence of solute atoms and particles on Young’s modulus of magnesium, series of binary Mg–Gd and Mg–Nd alloys were prepared using hot extrusion. With increasing Gd content from 0 to 2.654 at.% Young’s modulus of Mg–Gd alloys increases linearly from 44.0 to 45.3 GPa. Regarding Mg–Nd alloys, Young’s modulus firstly decreases to 42.5 GPa until 0.184 at.% Nd, and then increases to 43.4 GPa at Mg–0.628 at.% Nd. The different influences of solutes Gd and Nd on Young’s modulus of Mg are attributed to their different solid solution behaviors in magnesium, which can lead to the alterations of crystal cell parameters and/or different amount of second phases. For Mg–Gd alloys the lattice parameters increase and the axial ratio (c/a) decreases with Gd content increasing. In contrast, for Mg–Nd alloys they almost keep unchanged due to small solubility of Nd in Mg when Nd content increases.
AB - In order to investigate the influence of solute atoms and particles on Young’s modulus of magnesium, series of binary Mg–Gd and Mg–Nd alloys were prepared using hot extrusion. With increasing Gd content from 0 to 2.654 at.% Young’s modulus of Mg–Gd alloys increases linearly from 44.0 to 45.3 GPa. Regarding Mg–Nd alloys, Young’s modulus firstly decreases to 42.5 GPa until 0.184 at.% Nd, and then increases to 43.4 GPa at Mg–0.628 at.% Nd. The different influences of solutes Gd and Nd on Young’s modulus of Mg are attributed to their different solid solution behaviors in magnesium, which can lead to the alterations of crystal cell parameters and/or different amount of second phases. For Mg–Gd alloys the lattice parameters increase and the axial ratio (c/a) decreases with Gd content increasing. In contrast, for Mg–Nd alloys they almost keep unchanged due to small solubility of Nd in Mg when Nd content increases.
KW - Lattice parameter
KW - Mg–Gd alloy
KW - Mg–Nd alloy
KW - Young’s modulus
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=85042272102&partnerID=8YFLogxK
U2 - 10.1007/978-3-319-52392-7_49
DO - 10.1007/978-3-319-52392-7_49
M3 - Article in conference proceedings
AN - SCOPUS:85042272102
SN - 978-3-319-52391-0
T3 - Minerals, Metals and Materials Series
SP - 341
EP - 347
BT - Magnesium Technology 2017
A2 - Neelameggham, Neale R.
A2 - Singh, Alok
A2 - Solanki, Kiran N.
A2 - Orlov, Dmytro
PB - Springer International Publishing AG
T2 - International Symposium on Magnesium Technology 2017
Y2 - 26 February 2017 through 2 March 2017
ER -