This book focuses on the earthquake source materials produced or deformed by both seismic faulting and aseismic creep within seismogenic fault zones at different levels of the crust. In particular, the mechanisms and processes involved in the formation of earthquake materials are covered. The book is intended to help bridge the gap between seismology and geology and to encourage further studies of earthquake mechanisms and seismic faulting processes.
Terminology and Origin of Pseudotachylyte.- Pseudotachylyte-Related Fault Rocks and Conceptual Fault Models.- Tectonic Environment and Structure of Pseudotachylyte Veins.- Pseudotachylyte Matrix.- Microlites.- Fragments Within Pseudotachylyte Veins.- Chemical Composition and Melting Processes of Pseudotachylyte.- Formation of Pseudotachylyte in the Brittle and Plastic Regimes.- Crushing-Origin Pseudotachylyte and Veinlet Cataclastic Rocks.- Landslide-related Pseudotachylyte.- Experimentally Generated Pseudotachylyte.
From the reviews:
The book by Professor Lin provides an overview of the current understanding of fault-related pseudotachylytes. The overview is based on a comprehensive examination of the literature and on the experience of the author & . It will be helpful for students and researchers involved in the new era of pseudotachylyte research, which relies more and more on high-velocity friction experiments. (Olivier Fabbri, The Journal of Geology, Vol. 116, 2008)
The topics covered in this book encompass the principl results of field investigations, analyses of meso-scale and micro-scale textures and structures, laboratory experiments, chemical analyses, conceptual fault models, as well as the implications of fault related pseudotachylyte an its related fault rocks for our understanding of earthquakes. We hope that this book helps to bridge the gap between seismology and geology and that it encourages further studies of earthquake and seil“Ĺ