Fluid‐mechanical models of crack propagation and their application to magma transport in dykes
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[1] B. Lawn. Fracture of Brittle Solids by Brian Lawn , 1993 .
[2] R. C. Kerr,et al. The eruption of komatiites and picrites in preference to primitive basalts , 1991 .
[3] R. W. Griffiths,et al. Radial spreading of viscous-gravity currents with solidifying crust , 1990, Journal of Fluid Mechanics.
[4] John R. Lister,et al. Buoyancy-driven fluid fracture: similarity solutions for the horizontal and vertical propagation of fluid-filled cracks , 1990, Journal of Fluid Mechanics.
[5] A. Takada. Experimental study on propagation of liquid‐filled crack in gelatin: Shape and velocity in hydrostatic stress condition , 1990 .
[6] D. Turcotte,et al. Buoyancy‐driven magma fracture: A mechanism for ascent through the lithosphere and the emplacement of diamonds , 1990 .
[7] A. Rubin. A comparison of rift-zone tectonics in Iceland and Hawaii , 1990 .
[8] John R. Lister,et al. Buoyancy-driven fluid fracture: the effects of material toughness and of low-viscosity precursors , 1990, Journal of Fluid Mechanics.
[9] A. Takada. Magma transport and reservoir formation by a system of propagating cracks , 1989 .
[10] H. Huppert,et al. Thermal control of basaltic fissure eruptions , 1989, Nature.
[11] O. Stephansson,et al. Global patterns of tectonic stress , 1989, Nature.
[12] G. Walker. Gravitational (density) controls on volcanism, magma chambers and intrusions , 1989 .
[13] R. C. Kerr,et al. The propagation of two-dimensional and axisymmetric viscous gravity currents at a fluid interface , 1989, Journal of Fluid Mechanics.
[14] D. Caress,et al. Tomographic image of the magma chamber at 12°50' N on the East Pacific Rise , 1989, Nature.
[15] K. Macdonald. Anatomy of the magma reservoir , 1989, Nature.
[16] H. Huppert,et al. Chilled margins in igneous rocks , 1989 .
[17] D. Spence. FLUID-DRIVEN FRACTURES , 1989 .
[18] B. Drummond. A review of crust/upper mantle structure in the Precambrian areas of Australia and implications for Precambrian crustal evolution , 1988 .
[19] Norman H. Sleep,et al. Tapping of melt by veins and dikes , 1988 .
[20] I. Campbell,et al. A two-stage model for the formation of the granite-greenstone terrains of the Kalgoorlie-Norseman area, Western Australia , 1988 .
[21] R. Macdonald,et al. Emplacement of the Cleveland Dyke: Evidence from Geochemistry, Mineralogy, and Physical Modelling , 1988 .
[22] H. Huppert,et al. The Generation of Granitic Magmas by Intrusion of Basalt into Continental Crust , 1988 .
[23] J. Dieterich. Growth and persistence of Hawaiian volcanic rift zones , 1988 .
[24] J. Fink,et al. The mechanism of intrusion of the Inyo Dike, Long Valley Caldera, California , 1988 .
[25] S. Maaløe. The generation and shape of feeder dykes from mantle sources , 1987 .
[26] J. Mutter,et al. Multi-channel seismic imaging of a crustal magma chamber along the East Pacific Rise , 1987, Nature.
[27] P. W. Sharp,et al. Buoyancy-driven crack propagation: a mechanism for magma migration , 1987, Journal of Fluid Mechanics.
[28] P. Ryan. Neutral buoyancy and the mechanical evolution of magmatic systems. , 1987 .
[29] D. Pollard,et al. Origins of blade-like dikes in volcanic rift zones. , 1987 .
[30] David D. Pollard,et al. Field relations between dikes and joints: Emplacement processes and paleostress analysis , 1986 .
[31] D. A. Spence,et al. Transport of magma and hydrothermal solutions by laminar and turbulent fluid fracture , 1986 .
[32] M. P. Ryan,et al. The viscosity of synthetic and natural silicate melts and glasses at high temperatures and 1 bar (105 pascals) pressure and at higher pressures , 1986 .
[33] P. W. Sharp,et al. Self-similar solutions for elastohydrodynamic cavity flow , 1985, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[34] H. Huppert,et al. Cooling and contamination of mafic and ultramafic magmas during ascent through continental crust , 1985 .
[35] H. Huppert,et al. Komatiites I: Eruption and Flow , 1985 .
[36] P. Meredith,et al. Fracture toughness and subcritical crack growth during high-temperature tensile deformation of Westerly granite and Black gabbro , 1985 .
[37] D. A. Spence,et al. Magma‐driven propagation of cracks , 1985 .
[38] J. Sinton,et al. Volatile contents and ferric-ferrous ratios of basalt, ferrobasalt, andesite and rhyodacite glasses from the Galapagos 95.5°W propagating rift , 1984 .
[39] D. McKenzie,et al. The Generation and Compaction of Partially Molten Rock , 1984 .
[40] B. Atkinson. Subcritical crack growth in geological materials , 1984 .
[41] H. Huppert,et al. Emplacement and cooling of komatiite lavas , 1984, Nature.
[42] J. Pasteris. KIMBERLITES: COMPLEX MANTLE MELTS , 1984 .
[43] Michael O. Garcia,et al. Volatiles in basalts and andesites from the Galapagos Spreading Center, 85° to 86°W , 1983 .
[44] A. Gudmundsson. Form and dimensions of dykes in eastern Iceland , 1983 .
[45] P. Grizzle,et al. Comment on “Comparison of Michigan Basin crude oils” by Vogler et al. , 1983 .
[46] D. Pollard,et al. Surface deformation in volcanic rift zones , 1983 .
[47] M. J. Carr,et al. Density constraints on the formation of the continental Moho and crust , 1983 .
[48] Herbert E. Huppert,et al. Flow and instability of a viscous current down a slope , 1982, Nature.
[49] D. Hill,et al. Crustal structure of Mauna Loa Volcano, Hawaii, from seismic refraction and gravity data , 1982 .
[50] H. Huppert. The propagation of two-dimensional and axisymmetric viscous gravity currents over a rigid horizontal surface , 1982, Journal of Fluid Mechanics.
[51] D. Pollard,et al. Solidification of basaltic magma during flow in a dike , 1982 .
[52] D. Stevenson. Migration of Fluid-Filled Cracks: Applications to Terrestrial and Icy Bodies , 1982 .
[53] M. P. Ryan,et al. Modeling the three-dimensional structure of macroscopic magma transport systems: Application to Kilauea Volcano, Hawaii , 1981 .
[54] Bradford H. Hager,et al. Melt segregation from partially molten source regions: The importance of melt density and source region size , 1981 .
[55] Lionel Wilson,et al. Ascent and eruption of basaltic magma on the earth and moon , 1981 .
[56] D. Pollard,et al. Deformation of host rocks and flow of magma during growth of minette dikes and breccia-bearing intrusions near Ship Rock, New Mexico , 1981 .
[57] K. Cox. A Model for Flood Basalt Vulcanism , 1980 .
[58] I. Kushiro. Chapter 3. Viscosity, Density, and Structure of Silicate Melts at High Pressures, and Their Petrological Applications , 1980 .
[59] H. R. Shaw. Chapter 6. The Fracture Mechanisms of Magma Transport From The Mantle to The Surface , 1980 .
[60] F. Spera. Chapter 7. Aspects of Magma Transport , 1980 .
[61] W. S. Pitcher. The nature, ascent and emplacement of granitic magmas , 1979, Journal of the Geological Society.
[62] D. Pollard,et al. On the mechanical interaction between a fluid-filled fracture and the earth's surface , 1979 .
[63] P. Einarsson,et al. Seismological evidence for Lateral magma intrusion during the July 1978 deflation of the Krafla volcano in NE-Iceland , 1978 .
[64] S. Sparks,et al. Lateral magma flow within rifted Icelandic crust , 1978, Nature.
[65] S. Fedotov. Ascent of basic magmas in the crust and the mechanism of basaltic fissure eruptions , 1978 .
[66] R. A. Schmidt,et al. Effect of confining pressureon fracture toughness of Indiana limestone , 1977 .
[67] J. Nicholls,et al. High-temperature properties of silicate liquids: applications to the equilibration and ascent of basic magma , 1977, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[68] Keiiti Aki,et al. Source mechanism of volcanic tremor: fluid-driven crack models and their application to the 1963 kilauea eruption , 1977 .
[69] P. C. Grew,et al. Stress corrosion theory of crack propagation with applications to geophysics , 1977 .
[70] D. Pollard. On the form and stability of open hydraulic fractures in the Earth's crust , 1976 .
[71] D. Pollard,et al. The effect of gradients in regional stress and magma pressure on the form of sheet intrusions in cross section , 1976 .
[72] P. Davis. The computed piezomagnetic anomaly field for Kilauea volcuano, Hawaii. , 1976 .
[73] David Pollard,et al. On the stability of open hydraulic fractures in the Earth's crust , 1975 .
[74] D. Swanson,et al. Linear vent systems and estimated rates of magma production and eruption for the Yakima Basalt on the Columbia Plateau , 1975 .
[75] N. Sleep. Segregation of Magma from a Mostly Crystalline Mush , 1974 .
[76] G. G. Hirs. A Systematic Study of Turbulent Film Flow , 1974 .
[77] Peter C. Smith,et al. A similarity solution for slow viscous flow down an inclined plane , 1973, Journal of Fluid Mechanics.
[78] G. G. Hirs. A Bulk-Flow Theory for Turbulence in Lubricant Films , 1973 .
[79] E. D. Jackson,et al. Orientation and growth of Hawaiian volcanic rifts: the effect of regional structure and gravitational stresses , 1972, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[80] J. Weertman. Theory of water-filled crevasses in glaciers applied to vertical magma transport beneath oceanic ridges , 1971 .
[81] J. Eaton,et al. Chronological narrative of the 1959-60 eruption of Kilauea Volcano, Hawaii , 1970 .
[82] F. Birch,et al. SECTION 7: COMPRESSIBILITY; ELASTIC CONSTANTS (See also Section 9) , 1966 .
[83] G. Oster,et al. DENSITY GRADIENT TECHNIQUES , 1963 .
[84] G. I. Barenblatt. THE MATHEMATICAL THEORY OF EQUILIBRIUM CRACKS IN BRITTLE FRACTURE , 1962 .
[85] H. C. Heard,et al. Chapter 4: Deformation of Rocks at 500° to 800° C. , 1960 .
[86] K. Mogi. Relations between the Eruptions of Various Volcanoes and the Deformations of the Ground Surfaces around them , 1958 .
[87] G. Kennedy,et al. Pressure-volume-temperature relations in water at elevated temperatures and pressures , 1950 .
[88] J. C. Jaeger,et al. Conduction of Heat in Solids , 1952 .
[89] E. M. Anderson. XVII.—The Dynamics of Sheet Intrusion , 1939 .
[90] E. M. Anderson. IX.—The Dynamics of the Formation of Cone-sheets, Ring-dykes, and Caldron-subsidences , 1937 .