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通过远低于熔点的虚拟熔化实现的固-固相变。

Solid-solid phase transformation via virtual melting significantly below the melting temperature.

作者信息

Levitas Valery I, Henson Bryan F, Smilowitz Laura B, Asay Blaine W

机构信息

Center for Mechanochemistry and Synthesis of New Materials, Texas Tech University, Lubbock, Texas 79409, USA.

出版信息

Phys Rev Lett. 2004 Jun 11;92(23):235702. doi: 10.1103/PhysRevLett.92.235702. Epub 2004 Jun 10.

Abstract

A new phenomenon is theoretically predicted, namely, that solid-solid transformation with a relatively large transformation strain can occur through virtual melting along the interface at temperatures significantly (more than 100 K) below the melting temperature. The energy of elastic stresses, induced by transformation strain, increases the driving force for melting and reduces the melting temperature. Immediately after melting, the stresses relax and the unstable melt solidifies. Fast solidification in a thin layer leads to nanoscale cracking, which does not affect the thermodynamics and kinetics of solid-solid transformation. Seven theoretical predictions are in quantitative agreement with experiments conducted on the beta-->delta transformation in the HMX energetic crystal.

摘要

从理论上预测了一种新现象,即具有相对较大转变应变的固-固转变可以通过在显著低于熔点(超过100K)的温度下沿界面的虚拟熔化来发生。由转变应变引起的弹性应力能量增加了熔化驱动力并降低了熔化温度。熔化后,应力立即松弛,不稳定的熔体凝固。薄层中的快速凝固导致纳米级裂纹,这并不影响固-固转变的热力学和动力学。七个理论预测与在HMX高能晶体中进行的β→δ转变实验在定量上一致。

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