High-pressure yield strength of rocksalt structures using quartz Raman piezometry

IF 2 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Comptes Rendus Geoscience Pub Date : 2019-02-01 DOI:10.1016/j.crte.2018.02.001

Bruno Reynard , Razvan Caracas , Hervé Cardon , Gilles Montagnac , Sébastien Merkel

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引用次数: 4

Abstract

The Raman frequencies of quartz are used to evaluate deviatoric stresses in rocksalt-structure media in diamond-anvil cell experiments to pressures up to 20 GPa. The piezospectroscopic effect in quartz is modeled by first-principles calculations. Non-hydrostatic stresses measured in halogen salts give yield strength estimates of 3 GPa in the B1 structure (NaCl), and 4.5 GPa for the B2 structure (KCl and KBr). Raman measurements in MgO show that the yield strength is reached at around 6 ± 1 GPa. Measurements on quartz alone indicate similar yield strength. The estimated yield strength in MgO is thus likely a lower bound, in consistency with former radial X-ray diffraction measurements that gave a yield strength of 8 ± 1 GPa, and lower-pressure large-volume press experiments indicating a yield strength of 6 GPa at 5 GPa. Former values of the yield strength below 2 GPa determined by pressure gradient measurements were underestimated due to unverified assumptions in boundary conditions. The yield strength increases with increasing coordination of ionic solids, likely contributing to increase viscosity at phase transitions near the upper–lower mantle boundary.

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用石英拉曼压力计测定岩盐结构的高压屈服强度

在金刚石-砧细胞实验中，石英的拉曼频率用于评估岩盐结构介质中压力高达20 GPa的偏应力。石英中的压电光谱效应是用第一性原理计算来模拟的。在卤素盐中测量的非流体静力应力给出了B1结构(NaCl)的屈服强度估计为3gpa, B2结构(KCl和KBr)的屈服强度估计为4.5 GPa。在MgO中的拉曼测量表明，MgO的屈服强度约为6±1 GPa。对石英的单独测量表明了类似的屈服强度。因此，MgO的屈服强度估计可能是一个下界，与之前的径向x射线衍射测量结果一致，该测量结果显示MgO的屈服强度为8±1 GPa，而低压大体积压机实验表明，MgO的屈服强度为5 GPa时的6 GPa。由于边界条件的假设未经验证，以前由压力梯度测量确定的屈服强度低于2 GPa的值被低估了。屈服强度随着离子固体配位的增加而增加，这可能导致了上下地幔边界附近相变时粘度的增加。

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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来源期刊

Comptes Rendus Geoscience 地学-地球科学综合

CiteScore

2.80

自引率

14.30%

发文量

审稿时长

5.9 weeks

期刊介绍： Created in 1835 by physicist François Arago, then Permanent Secretary, the journal Comptes Rendus de l''Académie des sciences allows researchers to quickly make their work known to the international scientific community. It is divided into seven titles covering the range of scientific research fields: Mathematics, Mechanics, Chemistry, Biology, Geoscience, Physics and Palevol. Each series is led by an editor-in-chief assisted by an editorial committee. Submitted articles are reviewed by two scientists with recognized competence in the field concerned. They can be notes, announcing significant new results, as well as review articles, allowing for a fine-tuning, or even proceedings of symposia and other thematic issues, under the direction of invited editors, French or foreign.