The effect of particle content and matrix grain size on the recrystallisation of two-phase aluminium-iron alloys

Mould, P. R.; Cotterill, P.J.

doi:10.1007/bf00555381

Cited by 75 publications

(13 citation statements)

References 11 publications

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“…1). Many researchers have observed the precipitation of Fe from supersaturated Al-Fe solid solution and subsequent interaction with recrystallization [12][13][14][15][16][17][18]. Present researchers have reported elsewhere the evidence of precipitation and recrystallization taking place simultaneously during isothermal annealing of cold-rolled alloy AA1235 [19].…”

Section: Discussionmentioning

confidence: 82%

Evolution of microstructure and mechanical properties during annealing of cold-rolled AA8011 alloy

Roy

Kar

Das

2009

Journal of Alloys and Compounds

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Section: Discussionmentioning

confidence: 82%

Evolution of microstructure and mechanical properties during annealing of cold-rolled AA8011 alloy

Roy

Kar

Das

2009

Journal of Alloys and Compounds

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“…[5,[13][14][15][16] Slower heating should allow more dispersoid precipitation on subgrain boundaries, preventing nucleation of recrystallization and resulting in a coarser recrystallized grain size. Typical scanning transmission electron microscopy (STEM) ( Figure 4) shows the interaction between precipitates and subgrain boundaries at the early stage of recrystallization in air-furnace-annealed TRC AA3105.…”

Section: Methodsmentioning

confidence: 99%

Effect of Heating Rate on Recrystallization of Twin Roll Cast Aluminum

Sun

Patterson

Suni

et al. 2007

Metall Mater Trans A

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The effect of heating rate on precipitation and recrystallization behavior in twin roll cast (TRC) AA3105 has been investigated by three different means: conventional air furnace, controlled infrared, and lead bath heating. Experimental results showed that as-recrystallized grain size decreased and became more equiaxed as the annealing heating rate increased. These results were explained via time-temperature-transformation (TTT) curves for both dispersoid precipitation and recrystallization. With the faster heating rate, recrystallization could occur before precipitation of Mn present in the unhomogenized TRC samples. At a heating rate of 50°C/s, the material underwent grain growth after recrystallization at 500°C. No sign of grain growth was observed in materials annealed with lower heating rates, 3°C/s, 0.5°C/s, and 0.01°C/s, due to greater dispersoid precipitation.

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“…The theoretical density of Cu-1 wt.% Al compact was calculated for 1.9 wt.% Al 2 O 3 . The reason for such an inadequate consolidation could be related to the copper matrix hardening and dislocation generation by alumina particles (Mould and Cotterill, 1967) as well as the particle size and shape of milled powders. The lower extent of densification of Cu-3 wt.% Al 2 O 3 compacts may be the result of dislocations accumulation around micro-sized Al 2 O 3 particles.…”

Section: Microhardness and Physical Propertiesmentioning

confidence: 99%

Properties of copper matrix reinforced with various size and amount of Al2O3 particles

Rajković

Božić

Jovanović

2008

Journal of Materials Processing Technology

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The effect of particle content and matrix grain size on the recrystallisation of two-phase aluminium-iron alloys

Cited by 75 publications

References 11 publications

Evolution of microstructure and mechanical properties during annealing of cold-rolled AA8011 alloy

Evolution of microstructure and mechanical properties during annealing of cold-rolled AA8011 alloy

Effect of Heating Rate on Recrystallization of Twin Roll Cast Aluminum

Properties of copper matrix reinforced with various size and amount of Al2O3 particles

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