Abstract
Demand to design engineering components with lightweight materials is a big challenge for the twenty-first-century engineer. Many researchers of the world have been trying hard to innovate new lightweight and energy-efficient alloy materials to replace steel and other metallic alloys. So far magnesium alloys are found fit for the purpose. But its alloying process is a little bit tough as molten magnesium is more prone to oxidation. Therefore, to improve its corrosion resistance and mechanical properties, researchers have been trying to establish new alloy systems in order to fulfill requirements from different industries especially automobile, aerospace, and health sector. Magnesium melting techniques, different Mg–alloy systems, and effect of alloying elements on the alloy have been discussed in this paper.
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Kumar A, Kumar S, Mukhopadhyay NK (2018) Introduction to magnesium alloy processing technology and development of low-cost stir casting process for magnesium alloy and its composites. J Magnes Alloys 6.3, 245–254
Kulekci MK (2008) Magnesium and its alloys applications in the automotive industry. Int J Adv Manuf Technol 39(9-10):851–865
Avedesian MM, Baker H (eds) (1999) ASM specialty handbook: magnesium and magnesium alloys. ASM International
Kainer KU (ed) (2006) Magnesium alloys and technologies. Wiley
Emley EF (1966) Principles of magnesium technology
Luo AA (2013) Magnesium casting technology for structural applications. J Magnes Alloys 1.1, 2–22
Ullmann M et al (2019) Development of new alloy systems and innovative processing technologies for the production of magnesium flat products with excellent property profile. Proc Manuf 27:203–208
Koltygin A.V et al (2013) Development of a magnesium alloy with good casting characteristics on the basis of Mg–Al–Ca–Mn system, having Mg–Al2Ca structure
Karakulak E, Küçüker YB (2018) Effect of Si addition on microstructure and wear properties of Mg–Sn as-cast alloys. J Magnes Alloys 6.4, 384–389
Jiang W et al (2019) Effect of Sn addition on the mechanical properties and bio-corrosion behavior of cytocompatible Mg–4Zn based alloys. J Magnes Alloys
Majd AM et al (2018) Effect of RE elements on the microstructural and mechanical properties of as-cast and age hardening processed Mg–4Al–2Sn alloy. J Magnes Alloys 6.3, 309–317
Shahid R, Scudino S (2018) Microstructure and mechanical behavior of Al–Mg composites synthesized by reactive sintering. Metals 8(10):762
Esmaily M et al (2017) Fundamentals and advances in magnesium alloy corrosion. Prog Mater Sci 89:92–193
Zhou Y et al (2019) Precipitation modification in cast Mg–1Nd–1Ce–Zr alloy by Zn addition. J Magnes Alloys
Janbozorgi M, Taheri KK, Taheri AK (2019) Microstructural evolution, mechanical properties, and corrosion resistance of a heat-treated Mg alloy for the bio-medical application. J Magnes Alloys 7.1, 80–89
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Rout, P.K., Jena, P.C., Arka, G.N., Surekha, B. (2020). Review on Magnesium Alloy Processing. In: Deepak, B., Parhi, D., Jena, P. (eds) Innovative Product Design and Intelligent Manufacturing Systems. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-2696-1_41
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DOI: https://doi.org/10.1007/978-981-15-2696-1_41
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