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The influence of trace amounts of water on the viscosity of rhyolites (1998)

Stevenson, R. J. ; Bagdassarov, N. S. ; Dingwell, D. B. ; [et al.]

Springer

Bulletin of volcanology 60 (1998), S. 89-97

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ISSN: 1432-0819

Keywords: Key words Rhyolite ; Calc-alkaline ; Peralkaline ; Viscosity ; Water ; Activation energy

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract As a major volatile in volcanic systems, water has a significant influence on the rheological properties of silicic magmas. This is especially so at minor water contents relevant to the emplacement of silicic lavas. To investigate the influence of water on the viscosity of natural rhyolitic obsidians, a novel strategy has been adopted employing parallel-plate and micropenetration techniques. Viscosities have been determined on three types of material: (a) raw water-bearing obsidians; (b) remelted (1650 °C, 1 atm) degassed glasses of the obsidians; and (c) hydrothermally hydrated (1300 °C, 3 kbar) obsidians. Ten natural rhyolitic obsidians (peraluminous, calc-alkaline and peralkaline) were employed: seven originated from lava flows and contained 〈0.2 wt.% H2O, two samples were F-rich from pyroclastic successions, and one was an obsidian cobble with 1.5 wt.% water also associated with pyroclastic units. Melt compositions and water contents were stable during viscometry. The measured decreases in activation energies of viscous flow and viscosity with small amounts of water are much greater than the Shaw calculation scheme predicts. In addition, a marked non-linear decrease in η exists with increasing water content. In contrast to the case for peralkaline rhyolites, 0.1–0.2 wt.% water decreases activation energies significantly (up to 30%) for calc-alkaline compositions. These results have important implications for the ease of near-surface degassing of silicic magmas during emplacement and permit the testing of calculational models for viscosity, largely based on synthetic systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050218

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Viscosity of microlite-bearing rhyolitic obsidians: an experimental study (1996)

Stevenson, R. J. ; Dingwell, D. B. ; Webb, S. L. ; [et al.]

Springer

Bulletin of volcanology 58 (1996), S. 298-309

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ISSN: 1432-0819

Keywords: Key words Microlites ; Rhyolite ; Obsidians ; Viscosity ; Glass transition ; Lava flow rheology

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract To investigate the influence of microlites on lava flow rheology, the viscosity of natural microlite-bearing rhyolitic obsidians of calc-alkaline and peralkaline compositions containing 0.1–0.4 wt.% water was measured at volcanologically relevant temperatures (650–950 °C), stresses (103–105 Pa) and strain rates (10–5 to 10–7 s–1). The glass transition temperatures (T g ) were determined from scanning calorimetric measurements on the melts for a range of cooling/heating rates. Based on the equivalence of enthalpic (calorimetric) and shear (viscosity) relaxation, we calculated the viscosity of the melt in crystal-bearing samples from the T g data. The difference between the calculated viscosity of the melt phase and the measured viscosity for the crystal-bearing samples is interpreted to be the physical effect of microlites on the measured viscosity. The effect of 〈5 vol.% rod-like microlites on the melt rheology is negligible. Microlite-rich and microlite-poor samples from the same lava flow and with identical bulk chemistry show a difference of 0.6 log10 units viscosity (Pa s), interpreted to be due to differences in melt chemistry caused by the presence of microlites. The only major differences between measured and calculated viscosities were for two samples: a calc-alkaline rhyolite with 1 vol.% branching crystals, and a peralkaline rhyolite containing crystal-rich bands with 〉45 vol.% crystals. For both of these samples a connectivity factor is apparent, with, for the latter, a close packing framework of crystals which is interpreted to influence the apparent viscosity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050141

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Physical properties of the 1980 Mount St. Helens cryptodome magma (1997)

Alidibirov, M. ; Dingwell, D. B. ; Stevenson, R. J. ; [et al.]

Springer

Bulletin of volcanology 59 (1997), S. 103-111

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ISSN: 1432-0819

Keywords: Key words Magma ; Mount St. Helens ; Cryptodome ; Viscosity ; Physical ; Rheological ; Experimental

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Physical properties of cryptodome and remelted samples of the Mount St. Helens grey dacite have been measured in the laboratory. The viscosity of cryptodome dacite measured by parallel–plate viscometry ranges from 10.82 to 9.94 log10 η (Pa s) (T=900–982 °C), and shrinkage effects were dilatometrically observed at T〉900 °C. The viscosity of remelted dacite samples measured by the micropenetration method is 10.60–9.25 log10 η (Pa s) (T=736–802 °C) and viscosities measured by rotational viscometry are 3.22–1.66 log10 η (Pa s) (T=1298–1594 °C). Comparison of the measured viscosity of cryptodome dacitic samples with the calculated viscosity of corresponding water-bearing melt demonstrates significant deviations between measured and calculated values. This difference reflects a combination of the effect of crystals and vesicles on the viscosity of dacite as well as the insufficient experimental basis for the calculation of crystal-bearing vesicular melt viscosities at low temperature. Assuming that the cryptodome magma of the 18 May 1980 Mount St. Helens eruption was residing at 900 °C with a phenocryst content of 30 vol.%, a vesicularity of 36 vol.% and a bulk water content of 0.6 wt.%, we estimate the magma viscosity to be 1010.8 Pa s.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050178

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