Microstructure and mechanical properties of new Mg-Zn-Y-Zr alloys with high castability and ignition resistance

T. A. Koltygina; V. E. Bazhenov; A. V. Koltygin; A. S. Prosviryakov; N. Y. Tabachkova; I. I. Baranov; A. A. Komissarov; A. I. Bazlov

doi:10.1007/s12613-024-2980-y

International Journal of Minerals, Metallurgy, and Materials ›› 2024, Vol. 31 ›› Issue (12) :2714 -2726. DOI: 10.1007/s12613-024-2980-y

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Microstructure and mechanical properties of new Mg-Zn-Y-Zr alloys with high castability and ignition resistance

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Abstract

Complex studies of new Mg-Zn-Y-Zr system alloys have been carried out. The content range for the formation of the two-phase structure MgSS (Mg solid solution) + LPSO (long-period stacking ordered) in alloys of the Mg-Zn-Y-Zr system was determined by thermodynamic calculations. The effect of heat treatment regimes on microstructure, mechanical, and corrosion properties was investigated. The fluidity, hot tearing tendency, and ignition temperature of the alloys were determined. The best combination of castability, mechanical, and corrosion properties was found for the Mg-2.4Zn-4Y-0.8Zr alloy. The alloys studied are superior to their industrial counterparts in terms of technological properties, while maintain high corrosion and mechanical properties. The increased level of properties is achieved by a suitable heat treatment regime that provides a complete transformation of the 18R to 14H modification of the LPSO phase.

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metals and alloys / liquid-solid reactions / microstructure / fluidity / mechanical properties / corrosion / transmission electron microscopy

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T. A. Koltygina, V. E. Bazhenov, A. V. Koltygin, A. S. Prosviryakov, N. Y. Tabachkova, I. I. Baranov, A. A. Komissarov, A. I. Bazlov. Microstructure and mechanical properties of new Mg-Zn-Y-Zr alloys with high castability and ignition resistance. International Journal of Minerals, Metallurgy, and Materials, 2024, 31(12): 2714-2726 DOI:10.1007/s12613-024-2980-y

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Polmear IJ. Light Alloys: From Traditional Alloys to Nanocrystals. 20054Oxford, Elsevier

[2]	Rokhlin LL. Magnesium Alloys Containing Rare Earth Metals: Structure and Properties. 2003, London, CRC Press

[3]	D. Dvorský, J. Kubásek, K. Hosová, M. Čavojský, and D. Vojtěch, Microstructure, mechanical, corrosion, and ignition properties of WE43 alloy prepared by different processes, Metals, 11(2021), No. 5, art. No. 728.

[4]	Luo A, Pekguleryuz MO. Cast magnesium alloys for elevated temperature applications. J. Mater. Sci.. 1994, 29(20): 5259

[5]	Kawamura Y, Kasahara T, Izumi S, Yamasaki M. Elevated temperature Mg₉₇Y₂Cu₁ alloy with long period ordered structure. Scripta Mater.. 2006, 55(5): 453

[6]	Shi H, Luo Q, Li Q, Zhang JY, Chou KC. Jordon JB, Miller V, Joshi VV, Neelameggham NR. Design of heat-dissipating Mg-La-Zn alloys based on thermodynamic calculations. Magnesium Technology 2020. 2020, Cham, Springer: 101

[7]	Yang Y, Xiong XM, Chen J, Peng XD, Chen DL, Pan FS. Research advances in magnesium and magnesium alloys worldwide in 2020. J. Magnesium Alloys. 2021, 9(3): 705

[8]	Xu DK, Han EH, Xu YB. Effect of long-period stacking ordered phase on microstructure, mechanical property and corrosion resistance of Mg alloys: A review. Prog. Nat. Sci. Mater. Int.. 2016, 26(2): 117

[9]	Nie YJ, Dai JW, Li X, Zhang XB. Recent developments on corrosion behaviors of Mg alloys with stacking fault or long period stacking ordered structures. J. Magnesium Alloys. 2021, 9(4): 1123

[10]	Bao L, Zhang ZQ, Le QC, Zhang S, Cui JZ. Corrosion behavior and mechanism of Mg-Y-Zn-Zr alloys with various Y/Zn mole ratios. J. Alloys Compd.. 2017, 712: 15

[11]	Yamasaki M, Kawamura Y. Thermal diffusivity and thermal conductivity of Mg-Zn-rare earth element alloys with long-period stacking ordered phase. Scripta Mater.. 2009, 60(4): 264

[12]	Luo ZP, Zhang SQ. High-resolution electron microscopy on the X-Mg12ZnY phase in a high strength Mg-Zn-Zr-Y magnesium alloy. J. Mater. Sci. Lett.. 2000, 19(9): 813

[13]	Liao HX, Kim J, Lee T, et al. . Effect of heat treatment on LPSO morphology and mechanical properties of Mg-Zn-Y-Gd alloys. J. Magnesium Alloys. 2020, 8(4): 1120

[14]	Wang D, Zhang JS, Xu JD, Zhao ZL, Cheng WL, Xu CX. Microstructure and corrosion behavior of Mg-Zn-Y-Al alloys with long-period stacking ordered structures. J. Magnesium Alloys. 2014, 2(1): 78

[15]	Luo SQ, Tang AT, Pan FS, Song K, Wang WQ. Effect of mole ratio of Y to Zn on phase constituent of Mg-Zn-Zr-Y alloys. Trans. Nonferrous Met. Soc. China. 2011, 21(4): 795

[16]	Zhu YM, Morton AJ, Nie JF. The 18R and 14H long-period stacking ordered structures in Mg-Y-Zn alloys. Acta Mater.. 2010, 58(8): 2936

[17]	Gröbner J, Kozlov A, Fang XY, Geng J, Nie JF, Schmid-Fetzer R. Phase equilibria and transformations in ternary Mg-rich Mg-Y-Zn alloys. Acta Mater.. 2012, 60(17): 5948

[18]	Shao G, Varsani V, Wang Y, Qian M, Fan Z. On the solidification microstructure of Mg-30Zn-2.5Y metal-intermetallic alloy. Intermetallics. 2006, 14(6): 596

[19]	Xu DK, Tang WN, Liu L, Xu YB, Han EH. Effect of W-phase on the mechanical properties of as-cast Mg-Zn-Y-Zr alloys. J. Alloys Compd.. 2008, 461(1–2): 248

[20]	Bazhenov VE, Koltygin AV, Sung MC, et al. . Development of Mg-Zn-Y-Zr casting magnesium alloy with high thermal conductivity. J. Magnesium Alloys. 2021, 9(5): 1567

[21]	Bazhenov VE, Saidov SS, Tselovalnik YV, et al. . Comparison of castability, mechanical, and corrosion properties of Mg-Zn-Y-Zr alloys containing LPSO and W phases. Trans. Nonferrous Met. Soc. China. 2021, 31(5): 1276

[22]	Xu DK, Tang WN, Liu L, Xu YB, Han EH. Effect of Y concentration on the microstructure and mechanical properties of as-cast Mg-Zn-Y-Zr alloys. J. Alloys Compd.. 2007, 432(1–2): 129

[23]	StJohn DH, Qian M, Easton MA, Cao P, Hildebrand Z. Grain refinement of magnesium alloys. Metall. Mater. Trans. A. 2005, 36(7): 1669

[24]	Qian M, Das A. Grain refinement of magnesium alloys by zirconium: Formation of equiaxed grains. Scripta Mater.. 2006, 54(5): 881

[25]	W.N. Zhang, Z.X. Feng, X. Li, and Y.M. Chen, Effect of Zr content on the distribution characteristic of the 14H and 18R LPSO phases, Mater. Res., 23(2020), No. 1, art. No. e20190539.

[26]	Rong W, Zhang Y, Wu YJ, et al. . Effects of Zr and Mn additions on formation of LPSO structure and dynamic recrystallization behavior of Mg-15Gd-1Zn alloy. J. Alloys Compd.. 2017, 692: 805

[27]	Zhao X, Shi LL, Xu J. Biodegradable Mg-Zn-Y alloys with long-period stacking ordered structure: Optimization for mechanical properties. J. Mech. Behav. Biomed. Mater.. 2013, 18: 181

[28]	S.O. Rogachev, V.E. Bazhenov, A.A. Komissarov, et al., Effect of hot rolling on structure and mechanical properties of Mg-Y-Zn-Mn alloys, Metals, 13(2023), No. 2, art. No. 223.

[29]	Andersson JO, Helander T, Höglund L, Shi PF, Sundman B. Thermo-Calc & DICTRA, computational tools for materials science. Calphad. 2002, 26(2): 273

[30]	Bazhenov VE, Petrova AV, Koltygin AV. Simulation of fluidity and misrun prediction for the casting of 356.0 aluminum alloy into sand molds. Int. J. Met.. 2018, 12(3): 514

[31]	ASTM International. Standard Practice for Preparing, Cleaning, and Evaluating Corrosion Test Specimens. 2017, West Conshohocken, ASTM InternationalASTM Standard G1-03

[32]	Kirkland NT, Birbilis N, Staiger MP. Assessing the corrosion of biodegradable magnesium implants: A critical review of current methodologies and their limitations. Acta Biomater.. 2012, 8(3): 925

[33]	Bazhenov VE, Koltygin AV, Komissarov A, et al. . Microstructure, mechanical and corrosion properties of biodegradable Mg-Ga-Zn-X (X = Ca, Y, Nd) alloys. Metal 2018-27th International Conference on Metallurgy and Materials. 2018

[34]	Petrova AV, Bazhenov VE, Koltygin AV. Prediction of misruns in ML5 (AZ91) alloy casting and alloy fluidity using numerical simulation. Russ. J. Non Ferr. Met.. 2018, 59(6): 617

[35]	Bazhenov VE, Koltygin AV, Sung MC, et al. . Design of Mg-Zn-Si-Ca casting magnesium alloy with high thermal conductivity. J. Magnesium Alloys. 2020, 8(1): 184

[36]	F.J. Xing, F. Guo, J. Su, X.P. Zhao, and H.S. Cai, The existing forms of Zr in Mg-Zn-Zr magnesium alloys and its grain refinement mechanism, Mater. Res. Express, 8(2021), No. 6, art. No. 066516.

[37]	Bonnah RC, Fu Y, Hao H. Microstructure and mechanical properties of AZ91 magnesium alloy with minor additions of Sm, Si and Ca elements. China Foundry. 2019, 16(5): 319

[38]	H.M. Chen, D. Han, H.W. Cui, et al., Microstructures and properties of as-cast rare Earth magnesium alloy with LPSO phase, Mater. Res. Express, 6(2019), No. 9, art. No. 0965a5.

[39]	Liu M, Shih DS, Parish C, Atrens A. The ignition temperature of Mg alloys WE43, AZ31 and AZ91. Corros. Sci.. 2012, 54: 139

[40]	Fassell WM, Gulbransen LB, Lewis JR, Hamilton JH. Ignition temperatures of magnesium and magnesium alloys. JOM. 1951, 3(7): 522

[41]	Hu H, Yu A, Li NY, Allison JE. Potential magnesium alloys for high temperature die cast automotive applications: A review. Mater. Manuf. Process.. 2003, 18(5): 687

[42]	Kang YH, Yan H, Chen RS. Effects of heat treatment on the precipitates and mechanical properties of sand-cast Mg-4Y-2.3Nd-1Gd-0.6Zr magnesium alloy. Mater. Sci. Eng. A. 2015, 645: 361

[43]	Li CQ, Xu DK, Zeng ZR, et al. . Effect of volume fraction of LPSO phases on corrosion and mechanical properties of Mg-Zn-Y alloys. Mater. Des.. 2017, 121: 430

[44]	Zhang ZQ, Liu X, Hu WY, et al. . Microstructures, mechanical properties and corrosion behaviors of Mg-Y-Zn-Zr alloys with specific Y/Zn mole ratios. J. Alloys Compd.. 2015, 624: 116

[45]	Song GL, Atrens A, Dargusch M. Influence of microstructure on the corrosion of diecast AZ91D. Corros. Sci.. 1998, 41(2): 249

[46]	Zhang LL, Zhang JS, Zhao R, Zhang JX, Xu CX. Research of the microstructure, mechanical property and corrosion behaviours of Mg-Y-Zn-Mn (-Mo) alloy with solution treatment. Corros. Eng. Sci. Technol.. 2021, 56(5): 427

[47]	Bazhenov VE, Baranov II, Lyskovich VV, et al. . Investigation of castability, mechanical, corrosion properties and flammability of ML-OPB and EWZ43 magnesium alloys. Izv. Vuz. Tsvet. Metall.. 2023, 1(1): 39