Feldspars and Their Reactions 1994 Edition Contributor(s): Parsons, Ian (Editor) |
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ISBN: 0792327225 ISBN-13: 9780792327226 Publisher: Springer OUR PRICE: $313.49 Product Type: Hardcover - Other Formats Published: February 1994 Annotation: Feldspar minerals make up 60% of the crust of the Earth. They are stable in the upper mantle, and are so abundant in the crust that they form the basis of the classification of igneous rocks. At the surface, feldspars weather to form clay minerals which are the most important mineral constituent of soils. The articles in this book review the chemical reactions of feldspars over the whole sweep of pressure and temperature regimes in the outer Earth, and describe the fundamental aspects of crystal structure which underlie their properties. The book covers intracrystalline reactions, such as order-disorder transformations and exsolution, and transfer of stable and radiogenic isotopes, which can be interpreted to provide insights into the thermal history of rocks. It is suitable for final year undergraduates or research workers. |
Additional Information |
BISAC Categories: - Science | Earth Sciences - Mineralogy - Science | Physics - Crystallography - Science | Chemistry - Inorganic |
Dewey: 546 |
LCCN: 94002625 |
Series: NATO Science Series C: |
Physical Information: 1.44" H x 6.14" W x 9.21" (2.48 lbs) 650 pages |
Descriptions, Reviews, Etc. |
Publisher Description: Feldspar minerals make up 60% of the crust of the Earth. They are stable in the upper mantle, and are so abundant in the crust that they form the basis of the classification of igneous rocks. At the surface, feldspars weather to form clay minerals which are the most important mineral constituent of soils. The articles in this book review the chemical reactions of feldspars over the whole sweep of pressure and temperature regimes in the outer Earth, and describe the fundamental aspects of crystal structure which underlie their properties. The book covers intracrystalline reactions, such as order-disorder transformations and exsolution, and transfer of stable and radiogenic isotopes, which can be interpreted to provide insights into the thermal history of rocks. It is suitable for final year undergraduates or research workers. |