In situ STEM reveals grain boundary preferred melting and long-range liquid Cu redistribution in Al-Cu alloy.
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Surfactant Marangoni stresses suppress hydrodynamic coarsening in bicontinuous phase separation non-monotonically with Péclet number, strongest at intermediate values because of competition between surfactant replenishment and gradient retention.
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Direct nanoscale observation of melting and solute redistribution in a hypoeutectic Al-Cu alloy with $\it{in\ situ}$ STEM
In situ STEM reveals grain boundary preferred melting and long-range liquid Cu redistribution in Al-Cu alloy.