Thermal Stability, Grain Growth Kinetics, and Mechanical Properties of Bulk Ultrafine-Grained AA6063/SiC Composites with Varying Reinforcement Sizes

Abstract: Bulk ultrafine-grained (UFG) AA6063/4wt pct SiC composites with varying reinforcement sizes [12 lm (coarse), 1 lm (fine), and 45 nm (nano)] have been developed by a hybrid route of stir-casting and cryorolling. In the current study, the influence of annealing temperatures (423 K to 573 K) on the precipitation evolution, particle-stimulated nucleation (PSN), recrystallization, grain growth kinetics, and thermal stability of developed bulk UFG composites have been studied, and the resultant effect of microstruct… Show more

“…However, for grain sizes smaller than 100 nm, intragranular precipitation is barely achievable due to grain boundary segregation of solute, either dynamically during severe plastic deformation or by diffusion during subsequent heat treatment [21][22][23]. The escape of solute can be accompanied by the formation of intergranular precipitates (i.e.…”

Spinodal Decomposition Stabilizes Plastic Flow in a Nanocrystalline Cu-Ti Alloy

“…However, for grain sizes smaller than 100 nm, intragranular precipitation is barely achievable due to grain boundary segregation of solute, either dynamically during severe plastic deformation or by diffusion during subsequent heat treatment [21][22][23]. The escape of solute can be accompanied by the formation of intergranular precipitates (i.e.…”

Spinodal Decomposition Stabilizes Plastic Flow in a Nanocrystalline Cu-Ti Alloy

“…De acuerdo a las morfologías mostradas, los recubrimientos obtenidos a una temperatura de activación de 300 ºC presentan una superficie lisa independientemente del tiempo de activación. Por el contrario, una temperatura de 400 ºC induce la formación de pliegues en la superficie debido al posible aumento de la cinética de crecimiento (Bembalge & Panigrahi, 2019). Después de la aplicación del tratamiento térmico las superficies se vuelven más lisas y se obtienen rugosidades más bajas.…”

Diseño sostenible de materiales cerámicos multifuncionales para el suministro eléctrico de baja potencia.

Thermal Stability and Grain Growth Kinetics of Ultrafine-Grained W with Various Amount of La2O3 Addition