Hot deformation behavior and processing map of Mg-3Sn-2Ca-0.4Al-0.4Zn alloy
Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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in: Metals, Jahrgang 8, Nr. 4, 216, 04.2018.
Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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TY - JOUR
T1 - Hot deformation behavior and processing map of Mg-3Sn-2Ca-0.4Al-0.4Zn alloy
AU - Dharmendra, Chalasani
AU - Rao, Kamineni Pitcheswara
AU - Suresh, Kalidass
AU - Hort, Norbert
N1 - Acknowledgments: This work described in this paper was supported by a grant from the Research Grants Council of the Hong Kong Special Administrative Region, China (Project No. CityU 114809).
PY - 2018/4
Y1 - 2018/4
N2 - Among newly developed TX (Mg-Sn-Ca) alloys, TX32 alloy strikes a good balance between ductility, corrosion, and creep properties. This study reports the influence of aluminum and zinc additions (0.4 wt % each) to TX32 alloy on its strength and deformation behavior. Uniaxial compression tests were performed under various strain rates and temperature conditions in the ranges of 0.0003-10 s-1 and 300-500 °C, respectively. A processing map was developed for TXAZ3200 alloy, and it exhibits three domains that enable good hot workability in the ranges (1) 300-340 °C/0.0003-0.001 s-1; (2) 400-480 °C/0.01-1 s-1; and (3) 350-500 °C/0.0003-0.01 s-1. The occurrence of dynamic recrystallization in these domains was confirmed from the microstructural observations. The estimated apparent activation energy in Domains 2 and 3 (219 and 245 kJ/mole) is higher than the value of self-diffusion in magnesium. This is due to the formation of intermetallic phases in the matrix that generates back stress. The strength of TXAZ3200 alloy improved up to 150 °C as compared to TX32 alloy, suggesting solid solution strengthening due to Al and Zn. Also, the hot deformation behavior of TXAZ3200 alloy was compared in the form of processing maps with TX32, TX32-0.4Al, TX32-0.4Zn, and TX32-1Al-1Zn alloys.
AB - Among newly developed TX (Mg-Sn-Ca) alloys, TX32 alloy strikes a good balance between ductility, corrosion, and creep properties. This study reports the influence of aluminum and zinc additions (0.4 wt % each) to TX32 alloy on its strength and deformation behavior. Uniaxial compression tests were performed under various strain rates and temperature conditions in the ranges of 0.0003-10 s-1 and 300-500 °C, respectively. A processing map was developed for TXAZ3200 alloy, and it exhibits three domains that enable good hot workability in the ranges (1) 300-340 °C/0.0003-0.001 s-1; (2) 400-480 °C/0.01-1 s-1; and (3) 350-500 °C/0.0003-0.01 s-1. The occurrence of dynamic recrystallization in these domains was confirmed from the microstructural observations. The estimated apparent activation energy in Domains 2 and 3 (219 and 245 kJ/mole) is higher than the value of self-diffusion in magnesium. This is due to the formation of intermetallic phases in the matrix that generates back stress. The strength of TXAZ3200 alloy improved up to 150 °C as compared to TX32 alloy, suggesting solid solution strengthening due to Al and Zn. Also, the hot deformation behavior of TXAZ3200 alloy was compared in the form of processing maps with TX32, TX32-0.4Al, TX32-0.4Zn, and TX32-1Al-1Zn alloys.
KW - Hot deformation
KW - Kinetic analysis
KW - Mg-Sn-Ca-Al-Zn alloy
KW - Microstructure
KW - Processing map
KW - Strength
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=85044716495&partnerID=8YFLogxK
U2 - 10.3390/met8040216
DO - 10.3390/met8040216
M3 - Journal articles
AN - SCOPUS:85044716495
VL - 8
JO - Metals
JF - Metals
SN - 2075-4701
IS - 4
M1 - 216
ER -