Effect of Zn Concentration on the Microstructure and Mechanical Properties of Al-Mg-Si-Zn Alloys Processed by Gravity Die Casting

Li, Longfei; Ji, Shouxun; Zhu, Qiang; Wang, Yun; Dong, Xiucheng; Yang, Wenchao; Midson, Stephen P.; Kang, Yonglin

doi:10.1007/s11661-018-4684-2

Cited by 21 publications

(6 citation statements)

References 35 publications

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“…Thus, the motion of dislocation becomes easier and the hardness of the system decreases. Another possible reason is that the low zinc content alloys solidify at higher temperatures making it difficult to increase hardness by grain refinement [14][15].…”

Section: Hardnessmentioning

confidence: 99%

Effect of Zn content on microstructure and properties of hypoeutectic and near-eutectic Al-Si alloys

Dhakar

Kumar

Manani

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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In this research, the microstructure and mechanical properties of permanent mould cast Al-Si (7 wt.% and 12 wt.%) alloys without and with different amounts of Zn (1 wt.%, 2 wt.% and 4 wt.%) were analysed. The Al-xSi-yZn alloys have been prepared through a stir casting process using an Al-15 wt.% Si master alloy at 800 °C. Optical microscopic analyses have revealed variation in the α-Al matrix and Si needles in the alloy with the variation in Zn content. The mechanical properties analysis has shown that the hardness, tensile strength and wear resistance of the alloys increase with the addition of Si but decrease with the addition of Zn, within the limit of the alloying additions of the present research.

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Section: Hardnessmentioning

confidence: 99%

Effect of Zn content on microstructure and properties of hypoeutectic and near-eutectic Al-Si alloys

Dhakar

Kumar

Manani

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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“…T' and T'' phases) are often observed in Al-Mg-Zn alloys [5, 7, 8, 19, 20, 25, 26] [22, 23]. However, it was also reported that the precipitate in several cast Al-Mg-Zn alloys with non-negligible Cu or Si levels, including Al-10.2Mg-3.2Zn-2.7Si aged at 160°C [30], Al-8.1Mg-3.5Zn-2.6Si aged at 180°C [10] and Al-5Mg-3.09Zn-1.0Cu aged at 150°C [21], is g' phase. It indicates that the phase transformation between g' and T' or T'' phases in Al-Mg-Zn alloys maybe exists.…”

Section: Solidification Path and Microstructural Evolutionmentioning

confidence: 99%

“…The two most popular improved Al-Mg alloys are Al-Mg-Zn [4][5][6] and Al-Mg-Cu-Zn [7,8], in which T-Mg 32 (Al, Zn) 49 and S-Al 2 MgCu phases and their precursors were formed and largely improve the mechanical properties. Meanwhile, Si is also added into Al-Mg alloys to form the strengthening Mg 2 Si phase and its precursors in Al-Mg-Si-Zn [9][10][11] and Al-Mg-Si-Cu-Zn [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

The development of low-temperature heat-treatable high-pressure die-cast Al–Mg–Fe–Mn alloys with Zn

et al. 2021

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In the present work, a novel low-temperature heat-treatable recycled die-cast Al–Mg alloy was developed by adding Zn into non-heat-treatable Al–5Mg–1.5Fe–0.5Mn alloy. The results showed that Zn additions resulted in the formation of equilibrium phase T-Mg32(Al, Zn)49 under as-cast condition, which can be dissolved into the α-Al matrix at a relatively low solution temperature (430 °C) and thus set the base for the low-temperature heat treatment. The mechanical test results indicated that Zn additions had a smooth liner improvement in the strength of all as-cast alloys and T6-state alloys with 1% and 2% Zn as its concentration increased but resulted in a sharp improvement on the strength of T6-state alloy when Zn concentration increased from 2 to 3%. TEM analysis revealed that the precipitate in T6-state Al–5Mg–1.5Fe–0.5Mn–3Zn alloy is η′ phase, rather than the widely reported T″ or T′ phase in other Al–Mg–Zn alloys with approximately same Mg and Zn concentrations. After the optimized low-temperature T6 heat treatment (solution at 430 °C for 60 min and ageing at 120 °C for 16 h), the Al–5Mg–1.5Fe–0.5Mn–3Zn alloy exhibits the yield strength of 321 MPa, ultimate tensile strength of 445 MPa and elongation of 6.2%.

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“…Shouxun Ji [5][6][7] et al developed the Al-Mg 2 Si-Mg-Zn base alloy, they also studied the effect of solid solution and aging treatment on the microstructure and properties of high strength die-cast Al-Mg-Zn-Si alloy, and the mechanical properties were significantly improved compared with the as-cast state. The die-casting alloy is a new type of heat-resistant and reinforced die-casting alloy, which can reduce the solution temperature by 60°C-100°C compared with conventional die-cast alloys.…”

Section: Introductionmentioning

confidence: 99%

Effect of Ti on microstructure and mechanical properties of die-cast Al-Mg-Zn-Si alloy

Zhang

Yan

Zhao

et al. 2020

Mater. Res. Express

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The Al-11.0Mg-2.6Si-4.0Zn-0.6Mn (wt%) alloy is a new developed high strength die cast alloy which can be used for structural parts in the automotive and aerospace industry. In this study, the effect of various amount of Ti on microstructure evolution and mechanical properties of Al-11.0Mg-2.6Si-4.0Zn-0.6Mn (wt%) alloy under as-cast and T6 heat treatment conditions are investigated. The addition of Ti results in the formation of Al 3 Ti intermetallic phase, and the volume fraction and forming temperature increases with the increase of titanium content. With 0.1wt% Ti addition, the best mechanical properties of the alloy. The yield strength (YS), ultimate tensile strength (UTS) and elongation reach up to 350 MPa, 440 MPa and 3.29% respectively after heat treatment. Titanium content should be controlled below 0.10%.

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Effect of Zn Concentration on the Microstructure and Mechanical Properties of Al-Mg-Si-Zn Alloys Processed by Gravity Die Casting

Cited by 21 publications

References 35 publications

Effect of Zn content on microstructure and properties of hypoeutectic and near-eutectic Al-Si alloys

Effect of Zn content on microstructure and properties of hypoeutectic and near-eutectic Al-Si alloys

The development of low-temperature heat-treatable high-pressure die-cast Al–Mg–Fe–Mn alloys with Zn

Effect of Ti on microstructure and mechanical properties of die-cast Al-Mg-Zn-Si alloy

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