Add to ORKGIn the discussion of lava dome formation, viscosity of magma plays an important role. Measurements of viscosity of magmas in field and laboratory are briefly summarized. The types of lava dome emplacements are classified into two, squeeze- and spine-type, by kinetic processes. The squeeze-type is the formation of a dome as a result of squeezes of magma through conduits and the latter is solidified magma forced to ascend by underlying fluid magma. An important parameter in the formation of such lava domes is their growth rates. Lava domes of squeeze-type are governed by the Hagen-Poiseuille Law which involves their viscosoties and other eruption parameters. At present, the real viscosity of magmas at the site of lava dome is still inaccessib...
International audienceBasaltic lavas collected at the Muliwai a Pele lava channel, built during 1974...
The Kaupulehu 1800-1801 lava flow of Hualalai volcano and the 1823 Keaiwa flow from the Great Crack ...
The formation of the two particular lava domes in Hokkaido, Japan is described and interpreted mainl...
Lava domes form when a highly viscous magma erupts on the surface. Several types of lava dome morpho...
Research suggests that variations in lava dome morphology on different planets will depend much more...
In planetary sciences, the emplacement of lava flows is commonly modelled using a single rheological...
In planetary sciences, the emplacement of lava flows is commonly modelled using a single rheologica...
AbstractIn planetary sciences, the emplacement of lava flows is commonly modelled using a single rhe...
Viscosity is one of the most important physical properties controlling lava flow dynamics. Usually, ...
The growth of lava domes can be either quiescent or violent, with transitions between styles of beha...
Propagation of a lava flow is governed by slope topography, magma rheology, heat exchange with the a...
Dome-forming eruption is a frequent eruptive style and a major hazard on numerous volcanoes worldwid...
Author Posting. © Cambridge University Press, 2000. This article is posted here by permission of Ca...
International audienceBasaltic lavas collected at the Muliwai a Pele lava channel, built during 1974...
The Kaupulehu 1800-1801 lava flow of Hualalai volcano and the 1823 Keaiwa flow from the Great Crack ...
The formation of the two particular lava domes in Hokkaido, Japan is described and interpreted mainl...
Lava domes form when a highly viscous magma erupts on the surface. Several types of lava dome morpho...
Research suggests that variations in lava dome morphology on different planets will depend much more...
In planetary sciences, the emplacement of lava flows is commonly modelled using a single rheological...
In planetary sciences, the emplacement of lava flows is commonly modelled using a single rheologica...
AbstractIn planetary sciences, the emplacement of lava flows is commonly modelled using a single rhe...
Viscosity is one of the most important physical properties controlling lava flow dynamics. Usually, ...
The growth of lava domes can be either quiescent or violent, with transitions between styles of beha...
Propagation of a lava flow is governed by slope topography, magma rheology, heat exchange with the a...
Dome-forming eruption is a frequent eruptive style and a major hazard on numerous volcanoes worldwid...
Author Posting. © Cambridge University Press, 2000. This article is posted here by permission of Ca...
International audienceBasaltic lavas collected at the Muliwai a Pele lava channel, built during 1974...
The Kaupulehu 1800-1801 lava flow of Hualalai volcano and the 1823 Keaiwa flow from the Great Crack ...
The formation of the two particular lava domes in Hokkaido, Japan is described and interpreted mainl...