Calculation Based on the Formation of Mg2Si and Its Effect on the Microstructure and Properties of Al–Si Alloys

Hao, Jianfei; Yu, Bang-Ying; Bian, Jiancong; Chen, Bin; Wu, Huishu; Li, Yanfang; Li, Runxia

doi:10.3390/ma14216537

Cited by 7 publications

(5 citation statements)

References 30 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…FSW can improve mechanical properties such as fracture toughness, fatigue, and ductility (Hao et al, 2021) .Looking at the fracture mode of four samples of cold reduced material highlighted in figure 4b shows that the material is more ductile as compared to as-received material and this justifies why there is less decrease in mechanical properties on it as compared to as-received FSW welded material. Some of the deviations that might have influence in the results of tensile tests are hooking defects which is one of the most common defects observed in FSW lap joints, which results in a decrease of mechanical properties in the weld when found in the load path (Gungor et al, 2014) to the material used in this study.…”

Section: Tensile Test Resultsmentioning

confidence: 96%

“…The second phases identified were Mg2Si shown on both cold rolled and as-received material WZ. Mg2Si has a low density (1.90 g/cm3), a high melting point (1087 ºC), a high hardness (4.5×10^9 N/m^2) , a high modulus of elasticity around (120 GPa) and a low thermal expansion coefficient (7.5×10^9) and will have a great influence on the mechanical properties of the material (Hao et al, 2021). Mg2Si phases identified on the welded zone of both samples are surrounded by α-Al (white spots), which contain silicon.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

The effect of cold rolling on mechanical properties and microstructure of aluminium 6082 T6 joint by friction stir welding process

2022

View full text Add to dashboard Cite

Cold rolling increases the strain hardening coefficient and improves the material's mechanical strength and formability while maintaining uniform sheet thickness. This paper investigates the effects of cold rolling on the mechanical properties of Aluminum 6082 T6 during the friction stir welding (FSW) process. Aluminum 6082 T6 material was cold rolled to reduce the thickness by 50 percent. Rolled and as-received material were welded by friction stir welding process using the same welding parameters. Welded samples were characterized by optical microscopy. Tensile and hardness tests were conducted on the welded sample. The findings shows a slight difference in tensile strength between rolled and as-received welded sample as it is reported to be 1.7%. Rolled sample was 3.5% more harder on the weld zone than as-received sample.

show abstract

Section: Tensile Test Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

The effect of cold rolling on mechanical properties and microstructure of aluminium 6082 T6 joint by friction stir welding process

2022

View full text Add to dashboard Cite

show abstract

“…This was due to the nature of the analysis, which also analysed the background of the sample. The phases were determined on the basis of EDS analyses and previous reports [17,18,[20][21][22][23].…”

Section: Metallographymentioning

confidence: 99%

The Influence of Foundry Scrap Returns on Chemical Composition and Microstructure Development of AlSi9Cu3 Alloy

Šmalc,

Vončina,

Mrvar

et al. 2023

Crystals

View full text Add to dashboard Cite

Recycling is now, more than ever, an important part of any foundry process due to the high cost of energy. The basis of the work presented here is a study of the addition of foundry scrap returns to the melt in order to reduce material and energy costs. The most important issue in such a process is the quality of both the prepared melt and final product. In this work, scrap returns were added to the AlSi9Cu3 base alloy in different proportions. Chemical composition was monitored, the solidification path was predicted by CALPHAD calculations and monitored by thermal analysis, and the formed microstructure was studied. The mechanical properties were also determined. The results showed that as the amount of scrap returns increased, elements such as Fe, Ni, Pb, Sr, etc. were more built up and elements such as Mg, Mn, Cr, etc. were decreased due to oxidation. The different chemical composition led to a reduced Mn:Fe ratio, resulting in the formation of needle-like Fe-rich phases and a decrease in mechanical properties.

show abstract

“…Another observation that can be made from Figure 5a is that the undercooling (TG-TN) associated with the development of the α-Al network is more explicit than those observed for the (Al-Si) and (Al-Al2Cu) eutectic reactions. The importance of the ∆Tα undercooling is that it defines the degree of the alloy grain refining [29,30]. It has been reported that the addition of a high percentage of Fe to die-cast alloys prevents the soldering of the casting with the steel die.…”

Section: Thermal Analysismentioning

confidence: 99%

The Role of Mg Content and Aging Treatment on the Tensile and Fatigue Properties of Die-Cast 380 Alloy

et al. 2022

View full text Add to dashboard Cite

The main objective of this contribution was to determine the impact of magnesium (Mg) concentration and solidification rate (about 800 °C/s) on the mechanical properties of commercial A380.1 die-cast alloy. Respective amounts of 0.10%, 0.30%, and 0.50% Mg were used to establish their influence on the main tensile properties, namely, the ultimate limit, the elastic limit, and the percentage of elongation to fracture. The study also focused on the effect of magnesium on the fatigue behavior of A380.1 alloy where the role of surface defects and internal defects (porosity, oxide films, and inclusions) on the alloy fatigue life was also determined. The tensile properties were analyzed in order to optimize the heat treatments of T6 (under-aging) and T7 (over-aging). Consequently, the influence of several parameters was evaluated using tensile testing and optical and scanning electron micrography. Fatigue strength was investigated by performing rotational bending tests. The results show that the alloy tensile strength parameters improve with up to 0.3% Mg. Further addition of Mg, i.e., 0.5%, does not produce any significant improvement with respect to either traction or fatigue. It is observed that the tensile properties fluctuate according to the Guinier–Preston zones which occur during heat treatment, while the fatigue properties decrease as the Mg content increases. In contrast to a mechanical fatigue failure mechanism, in the present study, cracks were initiated at the sample’s outer surface and then propagated toward the center.

show abstract

Calculation Based on the Formation of Mg2Si and Its Effect on the Microstructure and Properties of Al–Si Alloys

Cited by 7 publications

References 30 publications

The effect of cold rolling on mechanical properties and microstructure of aluminium 6082 T6 joint by friction stir welding process

The effect of cold rolling on mechanical properties and microstructure of aluminium 6082 T6 joint by friction stir welding process

The Influence of Foundry Scrap Returns on Chemical Composition and Microstructure Development of AlSi9Cu3 Alloy

The Role of Mg Content and Aging Treatment on the Tensile and Fatigue Properties of Die-Cast 380 Alloy

Contact Info

Product

Resources

About