Litcius/Paper detail

Coarsening kinetics of lamellar and equiaxed microstructures of eutectic Au–20Sn during the annealing

Li Fu, Junjie He, Shenglai Lu, Yingjie Sun, Danli Zhu, Yong Mao

2022Journal of Materials Research and Technology17 citationsDOIOpen Access PDF

Abstract

In this study, the microstructural evolution and coarsening kinetics of lamellar and equiaxed microstructures of eutectic Au–20Sn alloy during the annealing at 160–220 °C were systematically investigated. The lamellae and near-equiaxed grains coarsened strongly depending on the annealing temperature and holding time. Specifically, a higher annealing temperature effectively accelerated the coarsening process. Quantitative evaluations of lamellar and near-equiaxed coarsening kinetics of eutectic Au–20Sn alloy were performed respectively. The coarsening mechanisms for these two microstructures of eutectic Au–20Sn alloy were also discussed. During the annealing, the lamellar coarsening kinetics of eutectic Au–20Sn was described as λ2-λ02 = KLt with the characteristic activation energy Q about 116.64 kJ mol−1. The lamellar coarsening behavior was dominantly controlled by the fault migration and annihilation aroused from the interfacial diffusion of Sn atoms. The near-equiaxed grain coarsening followed the Lifshitz-Slyosov-Wagner theory rn-r0n = KMLSWt with temporal exponent n = 4 at 180 °C and n = 5 at 220 °C, respectively. The near-equiaxed grain coarsening was controlled by grain-boundary diffusion. This study provided a microstructural evolution law for eutectic Au–20Sn alloy, and it further offers a theoretical basis for the deformation processing during the thermal processes.

Topics & Concepts

Equiaxed crystalsLamellar structureMaterials scienceEutectic systemAnnealing (glass)MicrostructureAlloyMetallurgyKineticsGrain boundaryThermodynamicsQuantum mechanicsPhysicsHigh Temperature Alloys and CreepMicrostructure and mechanical propertiesAluminum Alloy Microstructure Properties