摘要
应用匹配渐近展开法和多变量展开法研究各向异性表面张力对定向凝固中深胞晶界面形态稳定性的影响,通过寻找定向凝固系统的模式解获得了深胞晶界面形态满足的量子化条件.结果表明,与各向同性的定向凝固系统中深胞晶界面形态稳定性比较,考虑各向异性表面张力的定向凝固中深胞晶生长界面形态也有两种整体不稳定性机制:整体波动不稳定性和低频不稳定性.随着各向异性表面张力的增加,中性模式产生强振荡的枝晶结构的整体波动不稳定性的不稳定区域减小,中性模式产生弱振荡的胞晶结构的低频不稳定性的不稳定区域增加.
In this paper,we study the effect of anisotropic surface tension on the interface morphological stability of deep cellular crystal during directional solidification.We assume that the process of solidification is viewed as a two-dimensional problem,the anisotropic surface tension is a four-fold symmetry function,the solute diffusion in the solid phase is negligible,the thermodynamic properties are the same for both solid and liquid phases,and there is no convection in the system.On the basis of the basic state solution for the deep cellular crystal in directional solidification,by the matched asymptotic expansion method and the multiple variable expansion method,we obtain the asymptotic solution,and then the quantization condition of interfacial morphology for deep cellular crystal is obtained.The results show that by comparison with the directional solidification system of surface tension isotropy,the interface morphological stability of surface tension anisotropy also possesses two types of global instability mechanisms:the global oscillatory instability(GTW-mode),whose neutral modes yield strong oscillatory dendritic structures,and the low-frequency instability(IF-mode),whose neutral modes yield weakly oscillatory cellular structures.Both of the two global instability mechanisms have the symmetrical mode(S-mode) and the anti-symmetrical mode(A-mode),and the growth rate of the S-mode with the same index n is greater than that of the A-mode.In this sense we say that the S-mode is more dangerous than the A-mode.All the neutral curves of the GTW-S-modes and LF-S-modes divide the parameter plane into two subdomains:the stable domain and the unstable domain.In the paper we show the neural curves of the GTW-S-modes and LS-S-modes for various n,respectively.It is seen that among all the GTW-S-modes(n = 0,1,2),the GTW-S-mode with n = 0 is the most dangerous oscillatory mode,while among all the LF-S-modes(n = 0,1,2),the LF-S-mode with n = 0 is the most dangerous weakly oscillatory mode.We als
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2016年第9期280-288,共9页
Acta Physica Sinica
关键词
定向凝固
各向异性表面张力
深胞晶
整体不稳定性
directional solidification
anisotropic surface tension
deep cellular crystal growth
global instabilities
