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Table of Contents
Principles of thermodynamic modeling of igneous processes
Thermodynamic properties of silicate liquids with emphasis on density, thermal expansion and compressibility
Simulation of igneous differentiation processes
The mathematics of fluid flow and a simple application to problems of magma transport
Physical processes in the evolution of magmas
Magma mixing processes: insights and constraints from thermodynamic calculations
The effect of oxygen fugacity on the redox state of natural liquids and their crystallizing phases
Dynamics of eruptive phenomena
Melt fraction diagrams: the link between chemical and transport models
Textural constraints on the kinetics of crystallization of igneous rocks.
Thermodynamic properties of silicate liquids with emphasis on density, thermal expansion and compressibility
Simulation of igneous differentiation processes
The mathematics of fluid flow and a simple application to problems of magma transport
Physical processes in the evolution of magmas
Magma mixing processes: insights and constraints from thermodynamic calculations
The effect of oxygen fugacity on the redox state of natural liquids and their crystallizing phases
Dynamics of eruptive phenomena
Melt fraction diagrams: the link between chemical and transport models
Textural constraints on the kinetics of crystallization of igneous rocks.