  Recrystallisation in the semi-solid state in 7075 aluminium alloy; ; Vaneetveld, Grégory  in Materials Science & Engineering : A - Structural Materials: Properties, Microstructure and Processing (2008), 490 There is a strong drive to near net shape process 7000 series aluminium alloys, which are currently machined from the wrought state with much waste. Semi-solid processing is one potential near net shaping ... [more ▼] There is a strong drive to near net shape process 7000 series aluminium alloys, which are currently machined from the wrought state with much waste. Semi-solid processing is one potential near net shaping route. It relies on the thixotropic behaviour of alloys with on-dendritic, spheroidal microstructures in the semi-solid state. If such alloys are sheared they thin and flow to fill the die. One route to spheroidal semi-solid microstructure is by reheating worked material into the semi-solid state. During the reheating, recrystallisation occurs and as liquid forms it penetrates the recrystallised boundaries to form spheroids. Here we examine the formation of spheroids in as-supplied 7075 aluminium alloy. It is generally known that 7075 is very resistant to recrystallisation in the solid state due to the presence of dispersoid particles pinning grain boundaries. In this work, we have reheated 7075 in the extruded and T6 condition into the semi-solid state. As the temperature rises into the semi-solid regime there is a sudden increase in the appearance of spheroidal grains. The occurrence of recrystallised grains is closely associated with the location of the first liquid to form above the solidus. Fully spheroidal microstructures are obtained on reheating as-supplied material to temperatures in the region of 580°C, although the fractions of liquid at that temperature are still low at around 5%. Conventionally there is extra cost involved in obtaining spheroidal microstructure feedstock for semi-solid processing because additional steps are introduced into the process route. The advantage here is that as-supplied material can be directly thixoformed once appropriate liquid fractions are attained. [less ▲] Detailed reference viewed: 24 (1 ULg)Recrystallisation in the semi-solid state in 7075 aluminium alloy; ; Vaneetveld, Grégory in International Journal of Material Forming (2008), 1(Suppl 1), 973-976 7000 series aluminium alloys are currently machined from the wrought state with much waste. There is therefore a motivation to identify effective near net shaping routes. Semi-solid processing is one such ... [more ▼] 7000 series aluminium alloys are currently machined from the wrought state with much waste. There is therefore a motivation to identify effective near net shaping routes. Semi-solid processing is one such potential route. It relies on the thixotropic behaviour of alloys with non-dendritic spheroidal microstructures. In the semisolid state the material thins when sheared and will flow to fill the die. When worked material is reheated, it recrystallises and moving into the semi-solid state, the required spheroidal microstructure develops. Here we examine the early stages of spheroid formation in 7075 aluminium alloy reheated from the as-supplied T6 condition. This alloy is very resistant to recrystallisation in the solid state due to the presence of dispersoid particles pinning grain boundaries. There is a sudden increase in the appearance of spheroidal grains. There is a close association with the position of the first liquid to form. On reheating as-supplied material to around 580°C (fraction of liquid ~5%), a fully spheroidal microstructure can be obtained. [less ▲] Detailed reference viewed: 31 (0 ULg) |
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