钢的三阶弹性常数和应力相关系数的测量

Sennosuke Takahashi
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引用次数: 25

摘要

迄今为止,文献中对钢的三阶弹性常数的讨论很少。本文在绝热和等温条件下,精确测量了多晶钢的二阶和三阶弹性常数。为了测量拉伸应力对应的弹性波传播时间的微小变化,对均匀和各向同性试样进行了高精度处理,对测量仪器进行了严格校准,并保持测量室温度恒定。作者提出了一个计算钢的三阶弹性常数的实验公式。该公式中的应力相关系数α ij对于获得三阶弹性常数是绝对必要的。得到的应力相关系数清楚地表明,应力方向与弹性波的振荡方向之间存在着特殊的关系。当弹性波的频率方向与外加应力方向相匹配时,α ij变为较大的负值。得到了四种钢的Lamè常数和Murnaghan三阶弹性常数?,m,n。绝热条件下的二阶和三阶弹性常数比等温条件下的小。晶格的振荡是非线性的,这是通过三阶弹性常数观察到的。因此,有可能获得关于材料的内应力和热性能的知识。这也是热膨胀系数理论讨论的基础。
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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Measurement of third-order elastic constants and stress dependent coefficients for steels

There has been little discussion of the third-order elastic constants of steels in the literature until now. In this study, the precise second- and third-order elastic constants of polycrystalline steels were measured under adiabatic and isothermal conditions.

To measure the minute change in the propagation time of the elastic wave corresponding to the tensile stress, the uniform and isotropic specimens were processed with high precision, the measuring instruments were strictly calibrated, and the temperature of the measurement chamber was kept constant. The author proposes an experimental formula to obtain the third-order elastic constants of steels. The stress dependent coefficients α ij in this formula are absolutely necessary to obtain the third-order elastic constants.

The obtained stress dependent coefficients clearly indicated that there is a special relationship between the directions of stress and that of the oscillation of the elastic wave. When the frequency direction of the elastic wave matched the direction of the applied stress, α ij became a larger negative value. Lamè constants and Murnaghan’s third-order elastic constants ?,m,n were obtained for four types of steels.

The second- and third-order elastic constants under adiabatic conditions were smaller than those under isothermal conditions. Oscillation of crystal lattice is nonlinear and this is observed as the third-order elastic constants. Therefore, it is possible to obtain the knowledge on the internal stress and the thermal properties of the materials. This is also the basis of theoretical discussion of the thermal expansion coefficients.

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