Magmas Under Pressure: Advances in High-Pressure Experiments on Structure and Properties of Melts
Editat de Yoshio Kono, Chrystèle Sanloupen Limba Engleză Paperback – 9 apr 2018
This book is an important reference, not only in the earth and planetary sciences, but also in other scientific fields, such as physics, chemistry, material sciences, engineering and in industrial applications, such as glass formation and metallurgical processing.
- Includes research and examples of high-pressure technologies for studying the structure and properties of magma
- Summarizes the current knowledge on the structure and properties of high-pressure magma
- Highlights the importance of magma in understanding the evolution of the earth’s interior
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Specificații
ISBN-13: 9780128113011
ISBN-10: 0128113014
Pagini: 514
Dimensiuni: 191 x 235 mm
Greutate: 0.88 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128113014
Pagini: 514
Dimensiuni: 191 x 235 mm
Greutate: 0.88 kg
Editura: ELSEVIER SCIENCE
Public țintă
Primary: Geochemists, geophysicists, earth scientists, mineralogists, and petrologistsSecondary: Physicists, chemists and material scientists
Cuprins
Magmas in the Earth’s interior 1. Primary mantle melts 2. Carbon-bearing magmas in the Earth’s deep interior 3. The influence of pressure on the properties and origins of hydrous silicate liquids in Earth's interior 4. Melting in the Earth’s deep interior
Advances in experimental studies of melts at high pressures 5. X-ray diffraction structure measurement 6. X-ray absorption spectroscopy measurement 7. Synchrotron Mossbauer spectroscopy measurement 8. Vibrational properties of glasses and melts 9. Density and elasticity measurements for liquid materials 10. Viscosity measurement 11. Electrical conductivity measurement
Current knowledge on structure and properties of magmas under pressure 12. Structure and properties of silicate magmas 13. Densification mechanisms of oxide glasses and melts 14. Silicate glasses under ultrahigh pressure conditions 15. Melts under extreme conditions from shock experiments 16. Simulation of silicate magmas under pressure
Advances in experimental studies of melts at high pressures 5. X-ray diffraction structure measurement 6. X-ray absorption spectroscopy measurement 7. Synchrotron Mossbauer spectroscopy measurement 8. Vibrational properties of glasses and melts 9. Density and elasticity measurements for liquid materials 10. Viscosity measurement 11. Electrical conductivity measurement
Current knowledge on structure and properties of magmas under pressure 12. Structure and properties of silicate magmas 13. Densification mechanisms of oxide glasses and melts 14. Silicate glasses under ultrahigh pressure conditions 15. Melts under extreme conditions from shock experiments 16. Simulation of silicate magmas under pressure