On the Natural Convection in the Columnar to Equiaxed Transition in Directionally Solidified Aluminum-based Binary and Multicomponent Alloys

“…Indeed, the two key ingredients in microstructure evolution during the solidification on Earth are the natural convection and grain motion due to buoyancy forces [12,13]. The natural convection, induced by any density differences in the melt in both horizontal and vertical direction [14,15], is present in the liquid ahead of the solidification front as well as in the interdendritic region [3,16,17], significantly modifying the solute and thermal fields [11,18]. Consequently, convection is responsible for both micro-and macro-segregation [19][20][21][22].…”

Comparative study of directional solidification of Al-7 wt% Si alloys in Space and on Earth: Effects of gravity on dendrite growth and Columnar-to-equiaxed transition

“…Indeed, the two key ingredients in microstructure evolution during the solidification on Earth are the natural convection and grain motion due to buoyancy forces [12,13]. The natural convection, induced by any density differences in the melt in both horizontal and vertical direction [14,15], is present in the liquid ahead of the solidification front as well as in the interdendritic region [3,16,17], significantly modifying the solute and thermal fields [11,18]. Consequently, convection is responsible for both micro-and macro-segregation [19][20][21][22].…”

Comparative study of directional solidification of Al-7 wt% Si alloys in Space and on Earth: Effects of gravity on dendrite growth and Columnar-to-equiaxed transition

“…According to this list in table 1, it seems that cooling rate is not sensitive to the position of the CET. On the other hand, the response of The thermal CET criteria are recognized as very good indicative for the macrostructural transition as reported in several articles [12][13][14]17,18 . However, none previous study has been found on determining the solidification thermal parameters associated with the CET of cast iron.…”

“…However, none previous study has been found on determining the solidification thermal parameters associated with the CET of cast iron. In the case of Sn-based 12,13,19 and Al-based 14,17,18 alloys investigations have been addressed to single-phase and hypoeutectic alloys. In these cases, critical cooling rate was established as a realistic criterion, since cooling rate (Ṫ) encompasses growth rate (V) and temperature gradient (G), i.e., =G x v. The present investigation deals with a eutectic alloy and in this case it appears that a critical growth rate of about 0.6mm/s is adequate criteria for cast iron.…”

Transient Directional Solidification of Cast Iron: Microstructure Formation, Columnar to Equiaxed Transition and Hardness

“…The ternary system (Aluminum, Silicon and Copper) has excellent properties as mechanical strength, low density as compared to ferrous alloys and good flowability. These properties make the system a good choice on automotive and aerospace industry, calling researchers attention 3,6 . Costa et al 7 investigated the influence of silicon on the microstructure comparing directional upward and horizontal solidification for the alloys Al-6wt%Cu-4wt%Si and Al-6wt%Cu, demonstrating that silicon alloying contributes to significant refinement of primary/secondary dendrite arm spacings.…”

An Experimental Study of the Solidification Thermal Parameters Influence upon Microstructure and Mechanical Properties of Al-Si-Cu Alloys