Hot tearing characteristics of binary Mg-Gd alloy castings

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Hot tearing characteristics of binary Mg-Gd alloy castings. / Srinivasan, Amirthalingam; Wang, Zhi; Huang, Yuanding et al.
In: Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, Vol. 44, No. 5, 05.2013, p. 2285-2298.

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Srinivasan A, Wang Z, Huang Y, Beckmann F, Kainer KU, Hort N. Hot tearing characteristics of binary Mg-Gd alloy castings. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science. 2013 May;44(5):2285-2298. doi: 10.1007/s11661-012-1593-7

Bibtex

@article{133d98668aa44745b41274b4726fb10b,
title = "Hot tearing characteristics of binary Mg-Gd alloy castings",
abstract = "Hot tearing characteristics of Mg-xGd (x = 1, 2, 5 and 10 wt pct) binary alloys have been studied in a constrained rod casting apparatus attached with a load cell and data acquisition system. The onset temperature of the hot tearing was identified from the force drop in the force-temperature-time curve, and the corresponding onset solid fraction was obtained from the fraction solid-temperature curve derived using Scheil non-equilibrium solidification model. The results indicate that the onset solid fraction for the hot tear decreased as the Gd content increased. The susceptibility defined by the total tear volume measurements by the X-ray micro-tomography technique indicates that the susceptibility increased with increase in Gd content to reach a maximum at 2 pct and then reduced with further increase in Gd to reach a minimum with 10 pct Gd. The high susceptibility observed in Mg-2 pct Gd was attributed to its cellular or columnar grain structure, which facilitated easy tear propagation, high strain at the onset with little amount of remaining liquid. In contrast, the lowest susceptibility of Mg-10 pct Gd was related to its equiaxed grain structure, which effectively accommodated the strain during solidification by reorienting themselves and the ability of the Gd-rich liquid to partially or completely refill the tear at the end of solidification. The results also indicate that the increase in mold temperature [723 K (450 C)] significantly reduced the total crack volume and hence reduced the susceptibility, which was attributed to the increase in the hot spot size and lesser total stain at the hot spot region.",
keywords = "Engineering",
author = "Amirthalingam Srinivasan and Zhi Wang and Yuanding Huang and Felix Beckmann and Kainer, {Karl Ulrich} and Norbert Hort",
year = "2013",
month = may,
doi = "10.1007/s11661-012-1593-7",
language = "English",
volume = "44",
pages = "2285--2298",
journal = "Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science",
issn = "1073-5623",
publisher = "Springer Nature AG",
number = "5",

}

RIS

TY - JOUR

T1 - Hot tearing characteristics of binary Mg-Gd alloy castings

AU - Srinivasan, Amirthalingam

AU - Wang, Zhi

AU - Huang, Yuanding

AU - Beckmann, Felix

AU - Kainer, Karl Ulrich

AU - Hort, Norbert

PY - 2013/5

Y1 - 2013/5

N2 - Hot tearing characteristics of Mg-xGd (x = 1, 2, 5 and 10 wt pct) binary alloys have been studied in a constrained rod casting apparatus attached with a load cell and data acquisition system. The onset temperature of the hot tearing was identified from the force drop in the force-temperature-time curve, and the corresponding onset solid fraction was obtained from the fraction solid-temperature curve derived using Scheil non-equilibrium solidification model. The results indicate that the onset solid fraction for the hot tear decreased as the Gd content increased. The susceptibility defined by the total tear volume measurements by the X-ray micro-tomography technique indicates that the susceptibility increased with increase in Gd content to reach a maximum at 2 pct and then reduced with further increase in Gd to reach a minimum with 10 pct Gd. The high susceptibility observed in Mg-2 pct Gd was attributed to its cellular or columnar grain structure, which facilitated easy tear propagation, high strain at the onset with little amount of remaining liquid. In contrast, the lowest susceptibility of Mg-10 pct Gd was related to its equiaxed grain structure, which effectively accommodated the strain during solidification by reorienting themselves and the ability of the Gd-rich liquid to partially or completely refill the tear at the end of solidification. The results also indicate that the increase in mold temperature [723 K (450 C)] significantly reduced the total crack volume and hence reduced the susceptibility, which was attributed to the increase in the hot spot size and lesser total stain at the hot spot region.

AB - Hot tearing characteristics of Mg-xGd (x = 1, 2, 5 and 10 wt pct) binary alloys have been studied in a constrained rod casting apparatus attached with a load cell and data acquisition system. The onset temperature of the hot tearing was identified from the force drop in the force-temperature-time curve, and the corresponding onset solid fraction was obtained from the fraction solid-temperature curve derived using Scheil non-equilibrium solidification model. The results indicate that the onset solid fraction for the hot tear decreased as the Gd content increased. The susceptibility defined by the total tear volume measurements by the X-ray micro-tomography technique indicates that the susceptibility increased with increase in Gd content to reach a maximum at 2 pct and then reduced with further increase in Gd to reach a minimum with 10 pct Gd. The high susceptibility observed in Mg-2 pct Gd was attributed to its cellular or columnar grain structure, which facilitated easy tear propagation, high strain at the onset with little amount of remaining liquid. In contrast, the lowest susceptibility of Mg-10 pct Gd was related to its equiaxed grain structure, which effectively accommodated the strain during solidification by reorienting themselves and the ability of the Gd-rich liquid to partially or completely refill the tear at the end of solidification. The results also indicate that the increase in mold temperature [723 K (450 C)] significantly reduced the total crack volume and hence reduced the susceptibility, which was attributed to the increase in the hot spot size and lesser total stain at the hot spot region.

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=84876669024&partnerID=8YFLogxK

U2 - 10.1007/s11661-012-1593-7

DO - 10.1007/s11661-012-1593-7

M3 - Journal articles

AN - SCOPUS:84876669024

VL - 44

SP - 2285

EP - 2298

JO - Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science

JF - Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science

SN - 1073-5623

IS - 5

ER -