Prediction of temperature-dependent nucleation and growth rates from crystallization-related heat release

We propose a method for determining the time and, therefore, temperature-dependent relative nucleation and growth rates during crystallization. We do so by linking the partial differential equation governing the time dynamics of the crystal size distribution to kinetic (Avrami) parameters describing...

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Published in	Physical review. E Vol. 109; no. 1-1; p. 014617
Main Authors	Kangas, Joseph, Hogan, Christopher J
Format	Journal Article
Language	English
Published	United States 01.01.2024
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Abstract	We propose a method for determining the time and, therefore, temperature-dependent relative nucleation and growth rates during crystallization. We do so by linking the partial differential equation governing the time dynamics of the crystal size distribution to kinetic (Avrami) parameters describing heat release. This approach is tested in silico by nucleating and growing diffusion limited aggregates with time-varying morphology and growth rates unhindered by impingement. The associated heat release is analyzed, showing that nucleation and growth rates could be extracted with high fidelity.
AbstractList	We propose a method for determining the time and, therefore, temperature-dependent relative nucleation and growth rates during crystallization. We do so by linking the partial differential equation governing the time dynamics of the crystal size distribution to kinetic (Avrami) parameters describing heat release. This approach is tested in silico by nucleating and growing diffusion limited aggregates with time-varying morphology and growth rates unhindered by impingement. The associated heat release is analyzed, showing that nucleation and growth rates could be extracted with high fidelity.
Author	Kangas, Joseph Hogan, Christopher J
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Title	Prediction of temperature-dependent nucleation and growth rates from crystallization-related heat release
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