Comparison of the microstructure evolution and mechanical properties via MDF and ITMT methods

•The microsetructure and mechanical properties of Mg–13Gd–4Y–2Zn–0.5Zr alloy was studied during MDF process.•Compared with MDF method, ITMT was proposed to shorten the deformation process and enhance the yield strength.•The comparison of microstructure evolution and mechanical properties via MDF and...

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Veröffentlicht in:	Journal of alloys and compounds 2021-11, Vol.881, p.160561, Article 160561
Hauptverfasser:	Dong, Beibei, Che, Xin, Zhang, Zhimin, Yu, Jianmin, Meng, Mu
Format:	Artikel
Sprache:	eng
Schlagworte:	Decreasing temperature Deformation Forging Grain size Intermediate thermo-mechanical treatment (ITMT) Mechanical properties Microstructure Multi-directional forging (MDF) Thermomechanical treatment Ultimate tensile strength Yield strength
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description	•The microsetructure and mechanical properties of Mg–13Gd–4Y–2Zn–0.5Zr alloy was studied during MDF process.•Compared with MDF method, ITMT was proposed to shorten the deformation process and enhance the yield strength.•The comparison of microstructure evolution and mechanical properties via MDF and ITMT was firstly investigated. Based on the multi-directional forging (MDF) method under decreasing temperature conditions, intermediate thermo-mechanical treatment (ITMT) method was proposed to control the microstructure of the deformed Mg-13Gd-4Y–2Zn-0.5Zr (wt%) alloy and improve its mechanical properties, especially the yield strength (YS). The results showed that compared with the MDF method, ITMT can significantly improve the mechanical properties of the deformed alloy and shorten the process flow. As the number of deformation passes increased, the microstructure became uniform, the average grain size gradually decreased, and the mechanical properties gradually improved during the MDF process. The average grain size of the alloy after 4 passes exhibited a minimum value of 2.4 µm, and the mechanical properties achieved a maximum value with an ultimate tensile strength (UTS) of 357 MPa and a YS of 304 MPa. The average grain size of the deformed alloy first decreased significantly and then slowly increased with an increase in the number of deformation passes via the ITMT method. After 2 passes, the alloy exhibited the minimum grain size and the best mechanical properties after T4-ITMT and T6-ITMT. The minimum grain size was 3.7 µm, and the UTS and YS were 341 MPa and 320 MPa via T4-ITMT method, respectively. The average grain size was 3.1 µm, and the UTS and YS were 356 MPa and 332 MPa via T6-ITMT method, respectively.
doi_str_mv	10.1016/j.jallcom.2021.160561
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Based on the multi-directional forging (MDF) method under decreasing temperature conditions, intermediate thermo-mechanical treatment (ITMT) method was proposed to control the microstructure of the deformed Mg-13Gd-4Y–2Zn-0.5Zr (wt%) alloy and improve its mechanical properties, especially the yield strength (YS). The results showed that compared with the MDF method, ITMT can significantly improve the mechanical properties of the deformed alloy and shorten the process flow. As the number of deformation passes increased, the microstructure became uniform, the average grain size gradually decreased, and the mechanical properties gradually improved during the MDF process. The average grain size of the alloy after 4 passes exhibited a minimum value of 2.4 µm, and the mechanical properties achieved a maximum value with an ultimate tensile strength (UTS) of 357 MPa and a YS of 304 MPa. The average grain size of the deformed alloy first decreased significantly and then slowly increased with an increase in the number of deformation passes via the ITMT method. After 2 passes, the alloy exhibited the minimum grain size and the best mechanical properties after T4-ITMT and T6-ITMT. The minimum grain size was 3.7 µm, and the UTS and YS were 341 MPa and 320 MPa via T4-ITMT method, respectively. 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Based on the multi-directional forging (MDF) method under decreasing temperature conditions, intermediate thermo-mechanical treatment (ITMT) method was proposed to control the microstructure of the deformed Mg-13Gd-4Y–2Zn-0.5Zr (wt%) alloy and improve its mechanical properties, especially the yield strength (YS). The results showed that compared with the MDF method, ITMT can significantly improve the mechanical properties of the deformed alloy and shorten the process flow. As the number of deformation passes increased, the microstructure became uniform, the average grain size gradually decreased, and the mechanical properties gradually improved during the MDF process. The average grain size of the alloy after 4 passes exhibited a minimum value of 2.4 µm, and the mechanical properties achieved a maximum value with an ultimate tensile strength (UTS) of 357 MPa and a YS of 304 MPa. The average grain size of the deformed alloy first decreased significantly and then slowly increased with an increase in the number of deformation passes via the ITMT method. After 2 passes, the alloy exhibited the minimum grain size and the best mechanical properties after T4-ITMT and T6-ITMT. The minimum grain size was 3.7 µm, and the UTS and YS were 341 MPa and 320 MPa via T4-ITMT method, respectively. 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Based on the multi-directional forging (MDF) method under decreasing temperature conditions, intermediate thermo-mechanical treatment (ITMT) method was proposed to control the microstructure of the deformed Mg-13Gd-4Y–2Zn-0.5Zr (wt%) alloy and improve its mechanical properties, especially the yield strength (YS). The results showed that compared with the MDF method, ITMT can significantly improve the mechanical properties of the deformed alloy and shorten the process flow. As the number of deformation passes increased, the microstructure became uniform, the average grain size gradually decreased, and the mechanical properties gradually improved during the MDF process. The average grain size of the alloy after 4 passes exhibited a minimum value of 2.4 µm, and the mechanical properties achieved a maximum value with an ultimate tensile strength (UTS) of 357 MPa and a YS of 304 MPa. 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subjects	Decreasing temperature Deformation Forging Grain size Intermediate thermo-mechanical treatment (ITMT) Mechanical properties Microstructure Multi-directional forging (MDF) Thermomechanical treatment Ultimate tensile strength Yield strength
title	Comparison of the microstructure evolution and mechanical properties via MDF and ITMT methods
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