2017
DOI: 10.1038/ngeo2951
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Quasi-equilibrium melting of quartzite upon extreme friction

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Cited by 37 publications
(35 citation statements)
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“…Recent experimental work by Lee et al (2017) further confirmed that ultrafine quartz grains melt at temperature >200°C lower than that for bulk grains during seismic frictional sliding. Thus, we conclude that melting of ultra-fine grains in the gouge requires lower energy rate than melting the asperities of the bulk, host blocks, and melting occurs in the nanometric gouge.…”
Section: 1002/2017jb014462mentioning
confidence: 92%
“…Recent experimental work by Lee et al (2017) further confirmed that ultrafine quartz grains melt at temperature >200°C lower than that for bulk grains during seismic frictional sliding. Thus, we conclude that melting of ultra-fine grains in the gouge requires lower energy rate than melting the asperities of the bulk, host blocks, and melting occurs in the nanometric gouge.…”
Section: 1002/2017jb014462mentioning
confidence: 92%
“…It might be assumed that temperatures due to friction must have locally exceeded the melting point of a-quartz (~1700°C; given limited eutectic melting due to the~90% SiO 2 content of the rock). However, Lee et al (2017) show that the preferential frictional melting of ultrafine particles and the metastable melting of bquartz can occur at temperatures as low as 1350-1500°C in quartzites. This stage terminates at the Hugoniot elastic limit as the shock front arrives (Fig.…”
Section: Shock Vein Modelmentioning
confidence: 97%
“…However, Lee et al. () show that the preferential frictional melting of ultrafine particles and the metastable melting of β‐quartz can occur at temperatures as low as 1350–1500 °C in quartzites. This stage terminates at the Hugoniot elastic limit as the shock front arrives (Fig.…”
Section: Shock Vein Modelmentioning
confidence: 99%
“…The 0.5-2 mm-thick pseudotachylytes (i.e., solidified frictionally generated melts produced during seismic slip) were found from the faults in muscovite-bearing quartzite (Bestmann et al 2011). Recently, Lee et al (2017) conducted high-velocity (1.3 m/s) friction experiments on quartzite, which showed that quartz can melt at lower temperatures (1350-1500 °C) than expected (1730 °C). However, frictional behavior of silica-rich rocks at seismic slip rates and the underlying physical mechanisms remain poorly understood.…”
Section: Introductionmentioning
confidence: 99%