A Method for Determining the Elastic Constants of a Cubic Crystal from Velocity Measurements in a Single Arbitrary Direction; Application to SrTiO3.

J. B. Wachtman, M. Wheat, S. Marzullo
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引用次数: 22

Abstract

Three independent velocities of sound can be measured along any direction of propagation in a cubic crystal except the [100] and [111] directions. These three velocities suffice to determine the three elastic constants and for the [110] direction, the calculation of these constants is easy. For all other directions, the calculation is more difficult; the only existing method appears to be a perturbation technique developed by Neighbours. The present paper presents a method using exact equations and an iterative procedure to solve these equations and to calculate both the elastic constants and their standard deviations from the sound velocities and their standard deviations. The method is illustrated with new data on SrTiO3 which give c11=3.156±0.027, c12=1.027±0.027, c44= 1.215±0.006×1012 dynes/cm2 at 25 °C. The importance of including covariance terms in calculations of the standard deviations is emphasized.
用单方向任意速度测量确定立方晶体弹性常数的方法应用到SrTiO3。
在立方晶体中,除了[100]和[111]两个方向外,可以沿任何传播方向测量三个独立的声速。这三个速度足以确定三个弹性常数,对于[110]方向,这些常数的计算很容易。对于所有其他方向,计算更加困难;唯一现有的方法似乎是邻居开发的扰动技术。本文提出了一种用精确方程和迭代法求解这些方程的方法,并计算了弹性常数及其与声速及其标准差的标准差。用SrTiO3上的新数据说明了该方法,在25°C时,c11=3.156±0.027,c12=1.027±0.027,c44= 1.215±0.006×1012 dynes/cm2。强调了在计算标准差时包括协方差项的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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