\begin{document}$T_{{\rm{peak}}}^{\rm{*}}$\end{document} increases with the Weber number increasing and \begin{document}$T_{{\rm{peak}}}^{\rm{*}}$\end{document} can be described as \begin{document}$T_{{\rm{peak}}}^{\rm{*}} = 0.34W{e^{0.15}}$\end{document}. The dimensionless time of the peak \begin{document}${\tau _{{\rm{peak}}}}$\end{document} increases with the Froude number increasing. In this paper, we also find that the dimensionless time of the peak \begin{document}${\tau _{{\rm{peak}}}}$\end{document} can be described as \begin{document}${\tau _{{\rm{peak}}}} = 0.85F{r^{5/8}}$\end{document}. After the mean temperature reaches the peak, the growth trend presents a trend of fluctuations. The shape of the trend line during this stage is related to Weber number. When the Weber number is small, the growth trend of mean temperature decreases in a short period of time and then restores and increases with time going by. When the Weber number is bigger, the growth rate becomes smoother during the long fluctuation period. The mean temperature will increase very slowly at the end of the impact. Only some cold spot are left on the surface during this period and the rising of the mean temperature becomes steady and slow."> - 必威体育下载

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Citation:

    Fang Long, Chen Guo-Ding
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    • Abstract views:6468
    • PDF Downloads:62
    • Cited By:0
    Publishing process
    • Received Date:26 May 2019
    • Accepted Date:02 September 2019
    • Available Online:27 November 2019
    • Published Online:05 December 2019

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