Shock temperatures of SiO/sub 2/ and their geophysical implications
The temperature of SiO/sub 2/ in high-pressure shock states has been measured for samples of single-crystal ..cap alpha..-quartz and fused quartz. Pressures between 60 and 140 GPa have been studied using projectile impact and optical pyrometry techniques at Lawrence Livermore National Laboratory. Both data sets indicate the occurrence of a shock-induced phase transformation at approx.70 and approx.50 GPa along the ..cap alpha..- and fused quartz Hugoniots, respectively. The suggested identification of this transformation is the melting of shock-synthesized stishovite, with the onset of melting delayed by metastable superheating of the crystalline phase. Some evidence for this transition in conventional shock wave equation of state data is given, and when these data are combined with the shock temperature data, it is possible to construct the stishovite-liquid phase boundaries. The melting temperature of stishovite near 70 GPa pressure is found to be 4500 K, and melting in this vicinity is accompanied by a relative volume change and latent heat of fusion of approx.2.7% and approx.2.4 MJ/kg, respectively. The solid stishovite Hugoniot centered on ..cap alpha..-quartz is well described by the linear shock velocity-particle velocity relation, u/sub s/ = 1.822 u/sub p/+1.370 km/s, while at pressures above the melting transition, the Hugoniot centered on ..cap alpha..-quartz has been fit with u/sub s/ = 1.619 u/sub p/+2.049 km/s up to a pressure of approx.200 GPa. The melting temperature of stishovite near 100 GPa suggests an approximate limit of 3500 K for the melting temperature of SiO/sub 2/-bearing solid mantle mineral assemblages, all of which are believed to contain Si/sup 4 +/ in octahedral coordination with O/sup 2 -/. Thus 3500 K is proposed as an approximate upper limit to the melting point and the actual temperature in the earth's mantle.
- Research Organization:
- Seismological Laboratory, California Institute of Technology, Pasadena, California 91125
- OSTI ID:
- 6303537
- Journal Information:
- J. Geophys. Res.; (United States), Vol. 88:B3
- Country of Publication:
- United States
- Language:
- English
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