首页|Long-range-diffusion-assisted but interface-controlled crystallization of a Mg-Ni-Mm glass below its glass-transition temperature
Long-range-diffusion-assisted but interface-controlled crystallization of a Mg-Ni-Mm glass below its glass-transition temperature
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NSTL
Elsevier
? 2022 Elsevier B.V.A metallic glass of nominal composition Mg75Ni20Mm5 (Mm: mischmetal) when heated shows primary crystallization to Mg2Ni. Transmission electron microscopy studies, including annealing experiments in-situ, supported by differential scanning calorimetry and X-ray diffraction, reveal the remarkable complexity of this crystallization. The crystals are lens-shaped and at constant temperature show linear (constant-rate) growth, despite marked partitioning of nickel from the glass to the crystal. The growth, constrained by atomic rearrangement at the glass-crystal interface, gives a crystalline phase that is partially disordered and has almost half of its magnesium sites vacant. The combination of solute partitioning and isothermal linear growth challenges usual assumptions about the characteristics of primary and polymorphic crystallization. This hybrid behavior is interpreted in terms of the widely differing diffusivities of the atomic species in this system.
CrystallizationDiffusionMetallic glassTransmission electron microscopy
Ivanov Y.P.、Greer A.L.、Semin V.O.、Lu Z.、Louzguine-Luzgin D.V.、Jiang J.
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Department of Materials Science & Metallurgy University of Cambridge
Mathematics for Advanced Materials-OIL National Institute of Advanced Industrial Science and Technology (AIST)
Institute for Materials Research Tohoku University
NSTL
Elsevier
