\begin{document}$\varepsilon \to 0$\end{document} can be found by dividing the cellular crystal growth region into an outer region far from the root and a region near the root, with an asymptotic solution found in the external region and the root region, respectively, and then matching them to obtain a consistent and effective asymptotic solution in the whole region. The asymptotic solution of the model in the external region is derived to obtain a first-order approximation of the eigenvalues. The inner solutions are matched with the outer solutions based on the vicinity of the singularity to obtain the global solutions and quantization conditions of the system, and finally the stability analysis is conducted. The results show that the directional solidification system of deep cellular crystal growth considering anisotropic interfacial kinetics contains two global instability mechanisms: global oscillation instability and low-frequency instability. The stability analysis shows that the anisotropic interfacial kinetics has a significant effect on the global oscillatory instability mechanism in the low order approximation. With the increase of the anisotropic interfacial kinetics parameter \begin{document}${\beta _4}$\end{document}, the global oscillatory instability region \begin{document}$\left( {{\text{Os}}{\text{.U}}} \right)$\end{document}of the dendrite structure with strong oscillation in neutral mode decreases. At the same time, the influence of interfacial dynamic anisotropy parameters on the overall oscillation instability of the system increases with interfacial dynamic parameters increasing."> - 必威体育下载

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Citation:

    Sun Si-Jie, Jiang Han
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    • Abstract views:797
    • PDF Downloads:34
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    Publishing process
    • Received Date:14 March 2024
    • Accepted Date:09 April 2024
    • Available Online:11 April 2024
    • Published Online:05 June 2024

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