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Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Standard

Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy. / Rao, K. P.; Ip, H. Y.; Suresh, K. et al.
in: Philosophical Magazine, Jahrgang 93, Nr. 35, 01.12.2013, S. 4364-4377.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Rao, KP, Ip, HY, Suresh, K, Prasad, YVRK, Wu, CML, Hort, N & Kainer, KU 2013, 'Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy', Philosophical Magazine, Jg. 93, Nr. 35, S. 4364-4377. https://doi.org/10.1080/14786435.2013.830202

APA

Rao, K. P., Ip, H. Y., Suresh, K., Prasad, Y. V. R. K., Wu, C. M. L., Hort, N., & Kainer, K. U. (2013). Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy. Philosophical Magazine, 93(35), 4364-4377. https://doi.org/10.1080/14786435.2013.830202

Vancouver

Rao KP, Ip HY, Suresh K, Prasad YVRK, Wu CML, Hort N et al. Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy. Philosophical Magazine. 2013 Dez 1;93(35):4364-4377. doi: 10.1080/14786435.2013.830202

Bibtex

@article{e199b1d48a5f49f7b2715f36ab27cf75,
title = "Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy",
abstract = "The behaviour of an as-cast ABaX422 Mg alloy has been evaluated with regard to its compressive strength in the temperature range 25-250 °C and hot working characteristics in the range 260-500°C. The microstructure of the as-cast alloy has intermetallic phases Mg17Ba2 and (Al, Mg)2Ca at the grain boundaries and is fine grained. The alloy has compressive strength better than AZ31 with Ca and Zn, which was attributed to the finer grain size. A processing map developed to characterize its hot working behaviour revealed two dynamic recrystallization domains in the temperature and strain rate ranges of (1) 300-390°C/0.0003-0.001 s-1 and (2) 400-500°C/0.0003-0.5 s-1. In the first domain, basal + prismatic slip occurs along with recovery by climb while in the second domain, second-order pyramidal slip dominates and recovery occurs by cross-slip. The apparent activation energy estimated in Domains 1 and 2 are 169 and 263 kJ/mol respectively, both being higher than that for self-diffusion suggesting that the intermetallic particles in the matrix cause considerable back stress. Bulk metal working of this alloy may be done in Domain 2 which ensures high workability while finish working may be done in Domain 1 in order to achieve a fine grained component. The alloy exhibits flow instability regimes at higher strain rates, in both the lower and higher temperature regions of the processing map, the manifestation being adiabatic shear band formation and flow localization respectively.",
keywords = "hot working; thermomechanical effects; dynamic recrystallization, Mg-Al-Ba-Ca alloy, Microstructure, processing map, Engineering",
author = "Rao, {K. P.} and Ip, {H. Y.} and K. Suresh and Prasad, {Y. V.R.K.} and Wu, {C. M.L.} and N. Hort and Kainer, {K. U.}",
year = "2013",
month = dec,
day = "1",
doi = "10.1080/14786435.2013.830202",
language = "English",
volume = "93",
pages = "4364--4377",
journal = "Philosophical Magazine",
issn = "1478-6435",
publisher = "Taylor and Francis Ltd.",
number = "35",

}

RIS

TY - JOUR

T1 - Compressive strength and hot deformation mechanisms in as-cast Mg-4Al-2Ba-2Ca (ABaX422) alloy

AU - Rao, K. P.

AU - Ip, H. Y.

AU - Suresh, K.

AU - Prasad, Y. V.R.K.

AU - Wu, C. M.L.

AU - Hort, N.

AU - Kainer, K. U.

PY - 2013/12/1

Y1 - 2013/12/1

N2 - The behaviour of an as-cast ABaX422 Mg alloy has been evaluated with regard to its compressive strength in the temperature range 25-250 °C and hot working characteristics in the range 260-500°C. The microstructure of the as-cast alloy has intermetallic phases Mg17Ba2 and (Al, Mg)2Ca at the grain boundaries and is fine grained. The alloy has compressive strength better than AZ31 with Ca and Zn, which was attributed to the finer grain size. A processing map developed to characterize its hot working behaviour revealed two dynamic recrystallization domains in the temperature and strain rate ranges of (1) 300-390°C/0.0003-0.001 s-1 and (2) 400-500°C/0.0003-0.5 s-1. In the first domain, basal + prismatic slip occurs along with recovery by climb while in the second domain, second-order pyramidal slip dominates and recovery occurs by cross-slip. The apparent activation energy estimated in Domains 1 and 2 are 169 and 263 kJ/mol respectively, both being higher than that for self-diffusion suggesting that the intermetallic particles in the matrix cause considerable back stress. Bulk metal working of this alloy may be done in Domain 2 which ensures high workability while finish working may be done in Domain 1 in order to achieve a fine grained component. The alloy exhibits flow instability regimes at higher strain rates, in both the lower and higher temperature regions of the processing map, the manifestation being adiabatic shear band formation and flow localization respectively.

AB - The behaviour of an as-cast ABaX422 Mg alloy has been evaluated with regard to its compressive strength in the temperature range 25-250 °C and hot working characteristics in the range 260-500°C. The microstructure of the as-cast alloy has intermetallic phases Mg17Ba2 and (Al, Mg)2Ca at the grain boundaries and is fine grained. The alloy has compressive strength better than AZ31 with Ca and Zn, which was attributed to the finer grain size. A processing map developed to characterize its hot working behaviour revealed two dynamic recrystallization domains in the temperature and strain rate ranges of (1) 300-390°C/0.0003-0.001 s-1 and (2) 400-500°C/0.0003-0.5 s-1. In the first domain, basal + prismatic slip occurs along with recovery by climb while in the second domain, second-order pyramidal slip dominates and recovery occurs by cross-slip. The apparent activation energy estimated in Domains 1 and 2 are 169 and 263 kJ/mol respectively, both being higher than that for self-diffusion suggesting that the intermetallic particles in the matrix cause considerable back stress. Bulk metal working of this alloy may be done in Domain 2 which ensures high workability while finish working may be done in Domain 1 in order to achieve a fine grained component. The alloy exhibits flow instability regimes at higher strain rates, in both the lower and higher temperature regions of the processing map, the manifestation being adiabatic shear band formation and flow localization respectively.

KW - hot working; thermomechanical effects; dynamic recrystallization

KW - Mg-Al-Ba-Ca alloy

KW - Microstructure

KW - processing map

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=84889884478&partnerID=8YFLogxK

U2 - 10.1080/14786435.2013.830202

DO - 10.1080/14786435.2013.830202

M3 - Journal articles

AN - SCOPUS:84889884478

VL - 93

SP - 4364

EP - 4377

JO - Philosophical Magazine

JF - Philosophical Magazine

SN - 1478-6435

IS - 35

ER -

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DOI

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